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Nandini Chemical Journal, November 2015 Page 1
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Volume 23 Issue 2 November 2015
Dedicated to the cause of chemical industry
* MODI GOVERNMENT’S PRAISEWORTHY INITIATIVES ON ENERGY FRONT
* GOVERNMENT’S DIRECTIVE TO CSIR LABS
TO SELF FINANCE RESEARCH PROJECTS
- A BOLD AND PRAGMATIC MOVE
* AUTOMOTIVE CATALYST – GLOBAL TREND
* NEODYMIUM BUTADIENE RUBBER - PRODUCT PROFILE
* BROMINE – INVESTMENT OPPORTUNITY
* SPOTLIGHT ON SPECIALITY CHEMICAL
TETRA ACETYL ETHYLENE DIAMINE (TAED)
Nandini Chemical Journal, November 2015 Page 2
65
VOLUME XXIII NOVEMBER 2015 ISSUE 2
Publisher:
Nandini Institute of Chemical Industries
Editor - Publisher N.S.Venkataraman
Editorial & Administrative Office:
M 60/1, IV Cross Street, Besant Nagar, Chennai-600 090
India
Phone: 43511945,/43540719/24916037
E-mail Address: mail@nandinichemical.com
nsvenkatchennai@gmail.com
Website:
www.nandinichemical.com
Annual Subscription Rates: Inland : Rs.1200/- 12 issues Overseas: US $ 100 12 issues US $ 180 24 issues
Subscription Charges payable in advance
in favour of Nandini Institute of Chemical Industries
Views expressed in this journal are not necessarily of the Editor - Publisher
CONTENTS
03 Talk of the month Modi government’s praiseworthy initiatives On energy front
06 Government’s directive to CSIR labs To self finance research projects - A bold and pragmatic move
08 Converting agri land for developing city
in Andhra Pradesh
- A questionable decision
10 Opium production in India
12 Anti dumping page 13 Plant closures 14 Book Review
“Growth strategies for Indian chemical industry In the context of global slowdown, with particular reference to China”
17 Automotive catalyst – Global trend
19 Neodymium butadiene rubber
- Product profile
22 Bromine – Investment opportunity
29 Spotlight on speciality chemical Tetra acetyl ethylene diamine (TAED)
34 Ethane cracker projects in USA
35 Battery-grade lithium capacity of Albemarle
36 Li-ion battery separators facility in Japan
37 Liquid crystal facilities of Merck
38 News round up – International
41 Biofuels from whisky, forestry and otherwaste
42 Technology development
45 China news
46 Agro chemical page
47 Pharma page
50 US shale gas flows into surplus market
51 Energy page
53 Environmental page
54 Spot price of polymers in China
– Period October,2015
63 Tender
64 Chemicals imported at the Chennai port during the month of August 2015
Nandini Chemical Journal, November 2015 Page 3
TALK OF THE MONTH
MODI GOVERNMENT’S PRAISEWORTHY INITIATIVES
ON ENERGY FRONT
Impending energy crisis :
India is presently importing around 190 million metric tonne of crude oil, around 15 million metric
tonne of liquefied natural gas (LNG) and around 180 million metric tonne of coal per annum, to
meet the energy and feedstock requirements.
Since there is no feasibility of domestic production of crude oil and natural gas being increased in
any significant quantity in the near future and one has to keep the fingers crossed about the extent
to which the domestic coal production can be increased, finding substitute energy source for crude
oil, natural gas and coal as energy fuel is a matter of vital importance.
In the absence of finding alternate energy source, India’s import of natural gas, crude oil and coal will
have to increase atleast by 50% by 2020 to achieve GDP growth of 6 to 7% per annum.
This level of import would put very severe strain on Indian foreign exchange reserves and if the
crude price would climb back to 70 USD per barrel by 2020 as predicted by many agencies, India
may even run out of money to import crude , natural gas and coal to the level of requirement in the
coming years.
Such impending energy crisis has to be avoided by government of India with forward planning and
efficient governance.
Offshore wind power project :
Though India has more than 24,000 MW of onshore wind power capacity, overall capacity utilisation
on annual basis is less than 40% , as there is good wind speed only for three to four months in a
year.
It is gratifying to note that the Government of India has taken initiatives in the energy front to
promote offshore wind power projects and battery driven vehicles for transportation, which are
extremely significant strategies .
In such circumstances, offshore wind power project is of
great significance ,since India has around
7000 kilometres of coastline.The distinct advantage of off
shore wind power project is the availability of wind
throughout the year, with wind speed being much higher
than onshore. While the cost of offshore wind power
project is around Rs.25 crores per MW as against
Rs. 7 crores per MW of onshore wind power project,
the economics of offshore wind power project would be
comparatively better than that of the onshore wind
power project, due to the higher capacity utilisation and
operating possibility throughout the year with high wind
speed.
While several coastal states in the country can have the
benefit of offshore wind power project, to start with,
Government of India has now chosen Gujarat and Tamil
Nadu for promoting the off shore wind power projects.
Nandini Chemical Journal, November 2015 Page 4
MODI GOVERNMENT’S PRAISEWORTHY INITIATIVES ON ENERGY FRONT
In Europe, in a short period, around 6000 MW of offshore wind power projects have been built. It is
reported that European Union is contemplating to have the target of achieving 1,00,000 MW of
offshore wind power capacity in future
The technology parameters for the installation mechanism of off shore wind power project on the
sea and operation of the project have been well developed in Europe. It is reported China is also
planning for offshore wind power projects in a big way, in view of it’s obvious advantages.
Very recently, government of India has announced offshore wind power policy and there may be
scope for further fine tuning it, after consultative process with the stake holders.
Just like the laudable initiatives of Modi government with regard to solar power projects and several
state governments taking follow up steps for building massive solar power projects, national priority
should be given for the offshore wind power project, which has huge relevance and potentials in
India.
Great strides have been made in developed countries to develop lithium ion batteries, which provide
the power source for running the battery operated automobiles.
With the introduction of the all electric Nissan Leaf in December,2010, over 1,80,000 units are
reported to have been sold worldwide by early June 2015. The Tesla model ranks second , with
expected global sales of about 90,000 units by October,2015.
Government of India is reported to have asked Indian Space Research Organisation to develop
technology for indigenously producing lithium ion batteries and government is reported to be
targeting to atleast run a few battery driven buses shortly.
Like Germany and several other countries, government of India should encourage setting up of a few
large battery driven car manufacturers in India as well as for the production of lithium ion batteries.
This move would considerably help in reducing fuel usage for transportation on national scale, as
well as providing environmental benefits.
Algae biofuel :
Algae biofuel is another great energy source opportunity for India.
The cultivation of algae crop requires only waste water ,carbon dioxide and sunlight as input. From
the algae, biofuel can be produced apart from several derivative chemicals such as ethanol etc.
Unfortunately, in spite of submitting detailed proposal by Nandini Consultancy Centre , Chennai
(www.nandinichemical.com) to government of India and government of Tamil Nadu, nothing
worthwhile has been done so far in the country.
Battery operated vehicles for transportation :
Another significant initiative of the Modi
government is it’s decision to promote
battery operated vehicles for transportation.
While battery operated cars have already
been introduced in India in a small way, the
sector needs great push from the
government in tune with the global trend and
in the light of India’s need to find alternate
energy source for transportation.
Nandini Chemical Journal, November 2015 Page 5
MODI GOVERNMENT’S PRAISEWORTHY INITIATIVES ON ENERGY FRONT
On the other hand, millions of dollars have been pumped in for development of technology for algae
based biofuel projects and algae based chemicals by USA and several other developed countries.
Commercial production has already been started abroad.
In view of the Indian tropical conditions, availability of large quantity of waste water (sewage water)
and carbon dioxide in huge quantity emitted by cement and power plants (which cause global
warming), India’s opportunity for promoting algae based projects are extremely attractive and the
country should not ignore this
Need to support the initiative of Modi government :
Certainly, Modi government has taken significant efforts on the energy
front and it needs to forge ahead with determined efforts and
pragmatic forward planning
The support of the media to promote appreciation of such appropriate
alternate energy options will considerably help in creating the right
climate for promoting the alternate energy sources and pave way for
smooth implementation. Such projects would certainly help in
protecting the country from the impending energy crisis.
.
RENEWABLE CAPACITY ADDITION
India’s renewable energy sector has reported significant growth in new capacity addition
during the first half of this fiscal.
The sector added 1,629 MW of new capacity from various sources during April-September
2015 as against 1,094 MW in the same period previous year, posting a rise of about
49 percent. Besides, 58 MW of off grid/ captive power generation capacity was also added
during the period.
During H1 of this fiscal, wind sector contributed about 933 MW (865 MW in H1 of last year)
and solar sector added 593 MW (135 MW), while the rest was contributed by small hydro
and waste to power segments at 92 MW and 12 MW respectively, according to Union
Ministry of New and Renewable Energy (MNRE).
With the capacity addition in H1, India’s cumulative grid interactive renewable energy
installed capacity stood at 37,414 MW as on September 30, 2015.
The government has fixed capacity addition target of 4,460 MW for this fiscal. Of this, wind is
expected to contribute 2,400 MW, followed by solar (1400 MW), small hydro (250 MW),
Bio power (400) and waste to power (10MW).
Overall, wind sector accounted for 65 percent
(24,376 MW) of India’s total green power
installed capacity. Solar has contributed
4,345 MW. Bio-power (comprising biomass and
gasification and bagasse cogeneration), small
hydro and waste to power contributed 4419 MW,
4147 MW and 127 MW respectively.
Nandini Chemical Journal, November 2015 Page 6
GOVERNMENT’S DIRECTIVE TO CSIR LABS
TO SELF FINANCE RESEARCH PROJECTS
- A BOLD AND PRAGMATIC MOVE
The above directive was on the basis of the deliberations during two day ‘Chintan Shivir’ held at
Dehradun in June 2015, that concluded with all CSIR labs resolving to turn research projects into
‘for profit’ ventures over the next two years. The Dehradun Declaration is a vision document with
a clear focus on deliverables that should be on fast track, having relevance to the common man
Under the Dehradun Declaration, research institutions have been asked to raise part of their money
for research through external funded projects and grants.
As part of the ‘Dehradun Declaration,’ all CSIR laboratories have agreed to develop a revenue
model in 8 business like manner with clear cost benefit analysis
Investment in CSIR labs and lack of commensurate benefits .
During the last few decades, several thousands of crores of rupees of taxpayer’s money have been
spent by Government of India in maintaining CSIR labs and funding their research programme.
Several new labs have been set up and the existing labs have been extended with additional research
centre facilities. However, it is well known fact that CSIR labs have not been producing results, that
are commensurate with the investment made and efforts put forth.
There have been increasing criticism that many CSIR scientists are more pre occupied with
preparing articles for publication in peer review journals , in taking part in seminars and submitting
patent applications, instead of paying adequate attention to develop appropriate technologies in time
bound schedule, in tune with the need of the country. There appears to be national consensus that
CSIR labs have failed to meet the expectation of the countrymen adequately.
Government of India has directed the Council of Scientific and Industrial Research (CSIR)
laboratories to generate half of its funds for research on its own.
CSIR laboratories have also been asked to send report cards to the Govt. of India on how each
of the laboratory is utilising its resources to develop specific lines of inventions, which would
contribute to the social and economic objectives of the government to ultimately benefit the
poor and the common man.
Nandini Chemical Journal, November 2015 Page 7
GOVERNMENT’S DIRECTIVE TO CSIR LABS TO SELF FINANCE RESEARCH PROJECTS While it is a fact that all CSIR labs have adequate facilities and talented scientists and engineers, there
is little industry confidence in the capability of CSIR labs to produce results that could be proven in
commercial plants. The overall number of projects that are commercially operating in India based
on technologies developed by CSIR labs. are too few and this scenario is not adequate to create
confidence amongst investors in the performance capability of CSIR labs.
Dr. CNR Rao’s view on Indian R & D efforts
Dr. CNR. Rao, a renowned scientist and Bharat Ratna awardee, has said that the quality of science
in India is unsatisfactory, adding that if the country would want to have a future, it should improve
on quality. He also rued the lack of investment in Indian R&D sector.
He said that India does not have single R & D institution that can match the best abroad, even as he
cited the example of China, to call for more investment in science and R & D efforts.
R&D culture in developed countries
It is well known fact that established research and development laboratories in developed countries
have their own funding programme to sustain their research activities, apart from getting grants
from government or other donor organizations for specific projects.
This type of practice have injected a sense of dynamism and pride amongst the scientists in the
developed countries.
Perhaps, this is the basic reason for such overseas laboratories turning out excellent results.
Scientists need motivation
The CSIR labs have all the competence and expertise to collaborate with industrial establishments
and focus on appropriate research projects But, it appears that the scientists need to be motivated
by ensuring appropriate research climate and eliminating the bureaucratic mind set in the
administration.
For example, it is reported that IICT,Hyderabad is already receiving around Rs. 30 crore from
various non CSIR sources, including foreign companies, industries and other government agencies,
which should be viewed as role model by other CSIR labs.
Scientists should accept the challenge
There may be some misgivings amongst some scientists in CSIR Labs that
government asking CSIR labs to fund part of its research projects by
earning, may lead to fall in performance and output. However, there is
no reason or justification for such apprehension
It may be noted that the Government funds would be still available for
CSIR labs and the government have, justifiably ,only asked CSIR Labs to
expect less from the government and generate more by their own efforts.
One would hope that this “shock treatment” to CSIR labs will lead to
positive results and scientists will accept the challenges and forge ahead
Nandini Chemical Journal, November 2015 Page 8
CONVERTING AGRI LAND FOR DEVELOPING CITY IN ANDHRA PRADESH - A QUESTIONABLE DECISION
.
Inadequate agricultural growth
Average growth of agriculture during the first four years of 12th Five Year Plan is likely to be only
around 1.5% against the target of 4%. This inadequate growth is bound to have huge adverse impact
on the economy of rural India and in the poverty alleviation programme.
More than 50% of Indian population is employed in the agricultural sector and their economic status
is unsatisfactory. The government of India has argued in the recent past that so many people are not
really needed to be employed in agricultural operations and considerable segment of the agricultural
work force should be drawn to industrial and other activities to improve their social and economic
conditions. There may be an element of logic in such view point.
However, the distinction must be made between weaning away agricultural workers to other areas
of employment and taking away the agricultural land and putting it into use for non agricultural
purposes.
Agri sector as vital as industrial sector
It is high time that the government of India should recognise that the contribution of agricultural
sector for India’s growth is as significant as industrial and services sector and perhaps, may be more
significant.
India has around 160 million hectare of arable land , which is second largest in the world after USA.
Gross irrigated area in India is around 83 million hectare, which is the largest in the world.
Agriculture operations has contributed around 75 billion US dollar net income to the national
exchequer by way of exports in the last five years. India ranks fifth largest exporter of agricultural
products after US, Brazil. China and Canada. Further, the import component in agricultural
operations is insignificant compared to the Import component in the services and industrial sector.
While industrial growth should be
complimentary to agricultural growth , there is
absolutely no justification to think that the
industrial activity or construction of a city should
be pursued at the cost of agricultural operations.
This is a counter productive approach.
The Chief Minister of Andhra Pradesh has
grievously erred and has done great disservice
by using 30,000 acres of agricultural land to build
a capital city.
It is shocking that 30,000 acres of fertile agricultural land have been put to use for developing
Amaravati as capital city of Andhra Pradesh.
Obviously, this implies that Chief Minister of Andhra Pradesh thinks that developing a city is
more important than cultivating rice or pulses. Converting agricultural land for building
houses or constructing factories are being repeatedly carried out during the last several
years all over the country
Nandini Chemical Journal, November 2015 Page 9
CONVERTING AGRI LAND FOR DEVELOPING CITY IN ANDHRA PRADESH
- A QUESTIONABLE DECISION
All said and done , Indian economy is agriculture oriented and it will continue to remain so for all
time to come. India should be proud of this ground reality. As a matter of fact, the agricultural
sector represents the basic strength of Indian economy and highest importance have to be given for
protecting the farming community as well as the agricultural economy at any cost.
Agriculture can do as good for India as industries and services sector. Certainly, there is no conflict
of interest between agriculture and non agriculture sector. At the same time, taking away fertile
agricultural land for constructing city, housing colony or factories is undesirable in principle and as
economic growth strategy.
Put the unused land to use
Today, there are thousands of acres of industrial land which are remaining unused. There are more
than two million hectares of waste land, marshy and rocky land in the country, which cannot be
used for agricultural operations but can certainly be put to use for non agricultural purposes.
Modi’s government should listen to the voice of rural India and the saner voice in the country,
which is of the firm view that agriculture needs strong government support to improve yield and
productivity and there should be no attempt to cut the area of agricultural land in the country.
Government of India would do well to announce a policy decision that all agricultural land in India
would remain intact and it will be used only for agricultural purposes.
Converting agricultural land to other activities is similar to cutting off the nose to spite the face.
Nandini Chemical Journal, November 2015 Page 10
OPIUM PRODUCTION IN INDIA
Government of India has notified the general conditions for grant of license for cultivation of
opium poppy on account of the Central Government during the opium crop year commencing on
the October 1, 2015 and ending with September 30, 2016.
Under the proposed policy, the average yield of opium cultivators has been fixed at 56 kg per
hectare in Madhya Pradesh and Rajasthan, and not less than 52 kg per hectare in Uttar Pradesh.
These are the only three states allowed to grow opium in the country.
While these limits are the same as last year, the government is looking to expand the area under
cultivation by rewarding cultivators, who did well the previous year. Under this year’s notification,
all eligible cultivators will be issued a licence for 10 acres.
India is one of the few countries that legally grow opium poppy and the only country which
legally produces opium gum.
Opium poppy plant is the source of opium gum, which contains several indispensable alkaloids
such as morphine, codeine and thebaine.
Codeine is commonly used in the manufacture of cough syrups.
Government of India is looking to increase the country’s opium production in the cultivation
year 2015-16.
Nandini Chemical Journal, November 2015 Page 11
OPIUM PRODUCTION IN INDIA
However, cultivators whose yield last year was 58 kg per hectare and above will get a licence for
15 acres, those with average yields of 60 kg per hectare and above will get 20 acres and those with
65 kg per hectare and above will be able to grow opium over 25 acres.
The increase in requirement this year could be for several reasons. It could be that the buffer stock
used for medical treatment has depleted due to higher demand, or because more was exported last
year.
The conditions under which a cultivator can grow opium in the country are very strictly defined.
A government notification lays out the exact tracts of land that can be used to grow opium in
Madhya Pradesh, Rajasthan and Uttar Pradesh.
The licencing policy allows cultivators to overshoot their actual area under cultivation by only up to
5 percent, failing which their licence will not be renewed the next year.
The government plans to increase opium production by expanding the area under cultivation.
* Opium planting begins in Madhya Pradesh, Rajasthan and Uttar Pradesh in October in the
specially designated tracts.
* Opium latex is extracted from the plants in February and March. The latex is extacted by
lancing,where a special tool is used to make a small cut on each poppy capsule.
* All the latex is collected and deposited with the government in early April and withholding
any latex is an offence.
* Opium latex is quality checked and weighed at government centres; farmers are paid prices
according to government set slabs.
* Opium gums is transferred to the Government Opium and Alkaloid Works (GOAW)
* Opium factories dry the opium for export and for use in alkaloid plants.
* The alkaloid plants extract alkaloids from opium and sell them to manufacturers of
pharmaceutical preparations.
This is more generous than last year,
when the government only rewarded
those cultivators, who achieved a yield of
65 kg per hectare in the previous year by
allowing them to grow opium in 20 acres.
In addition, the government is considering
issuing more licences to farmers this year
than in the past in light of proposed
augmentation of capacity of the
Government Opium and Alkaloid Works.
Nandini Chemical Journal, November 2015 Page 12
ANTI DUMPING PAGE
Fibre boards
India has imposed definitive anti dumping duty on fibre boards imported mainly from China, for five
years. The products include certain types of fibre boards imported from China, Malaysia, Thailand
and Sri Lanka and fully drawn or fully oriented yarn/spin drawn yarn/flat yarn of polyester imported
from China and Thailand.
*****
PET resin
The US Department of Commerce, on 7 October, 2015 announced its affirmative preliminary
determination in the antidumping investigation into import of polyethylene terephthalate (PET) resin
from Canada, China, India and Oman.
Preliminary dumping margins on Indian PET producers
Exporter/producer Dumping margins Cash deposit rate*
Dhunseri Petrochem Ltd. 19.41% 14.28%
Ester Industries Ltd. 10.68% 5.55%
JBF Industries Ltd. 19.41% 0.00%
Reliance Industries Ltd. 6.31% 1.18%
Others 8.50% 3.37%
* The cash deposit rate accounts for the applicable export subsidy of 5.13% for Dhunseri,
Ester, Reliance and “others” and of 37.1% for JBF.
In its preliminary determinations, the US authorities found that PET resin from Canada, China, India,
and Oman have been dumped in the US.
In addition, in the India investigation, petitioners alleged “critical circumstances.”
The US Department of Commerce found that critical circumstances exist for all Indian companies.
As a result, and in accordance with the governing regulation, it will instruct U.S. Customs and
Border Protection (CBP) to collect cash deposits of estimated antidumping duties on entries of PET
resin from India up to 90 days prior to the date of publication of the preliminary determination
in the Federal Register.
******
It finds application in industries such as garment industries, surgical and orthopaedic apparatus
manufacturing, shoes and footwear manufacturing, toys, luggage/bags manufacturing, automobile
upholstery and various other industrial segments.
The finance ministry move follows the Designated Authority in the commerce ministry initiating
second sunset review investigation on import of “narrow woven fabric” import from China and
Chinese Taipei.
Narrow woven fabric
The Finance Ministry of Governmet of India has extended by one year the
validity of anti dumping duty on ‘’narrow woven fabric’ imports from China and
Chinese Taipei.
In market parlance, “narrow woven fabric” are popularly known as “Velcro
tapes” or “fastening tapes”.or “hook and loop tape fasteners”.
Nandini Chemical Journal, November 2015 Page 13
PLANT CLOSURES
Closure of NBR plant in the UK
Zeon Chemicals’ Europe arm plans to close the facility in the company’s nitrile butadiene rubber
(NBR) plant at Barry, UK March 2016.
The 15,000 metric tonne per annum NBR plant accounts for 17% of Zeon’s global NBR capacity.
The company also makes NBR at Tokuyama, Japan; and in the United States. Zeon cites uncertainty
over the long term availability of raw materials and changing market conditions. The unit consumes
acrylonitrile and butadiene.
The plant also makes specialty nitrile compounds. Zeon says the plant will cease production in
December.
*****
Sabic closes cyclohexane unit in UK
Sabic’s 195,000 metric tonne per annum cyclohexane unit at Wilton, UK, will close at the start of
2017 because a change in the feedslate of the accompanying steam cracker will end benzene
extraction operations at the site.
In 2014, Sabic followed Ineos and Borealis by announcing an upgrade for the 865,000 metric tonne
per annum cracker at Wilton that will enable the unit to run on ethane imported from the United
States alongside the plant’s current feeds.
As the cracker feed lightens, the production of pyrolysis gasoline reduces. This will cut the
availability of feed for Sabic’s benzene extraction unit, which provides the feed for the cyclohexane
plant.
Wilton cyclohexane plant, accounts for almost 20% of the Western European market and will leave
a substantial vacuum. Europe already imports around 25% of its cyclohexane and this will need to
increase to 35 to 40%.
*****
Trinseo to close SB latex plant at Gales Ferry
Trinseo (Berwyn, PA) will close its styrene butadiene latex plant in Gales Ferry, CT, at the end of
2015 as part of a programme to reduce costs in the business by a $5 million run rate in 2016.
The plant will be decommissioned and demolished next year.
The Gales Ferry plant has production capacity of 83,000 metric tonne per year. Trinseo will supply
customers from plants in Midland, MI; and Dalton, GA. The company will make capital investments
at the Midland plant to enhance production and storage capabilities to support customers whom
Gales Ferry had sourced.
******
BP to close idled para xylene plant at Texas City
BP will permanently shut down an idled para x ylene ( p xylene) unit at its Texas City, TX, facility in
USA.
BP will continue to operate the site’s other two p xylene units, as well as a meta xylene unit.
*****
Nandini Chemical Journal, November 2015 Page 14
BOOK REVIEW “GROWTH STRATEGIES FOR INDIAN CHEMICAL INDUSTRY
IN THE CONTEXT OF GLOBAL SLOWDOWN,
WITH PARTICULAR REFERENCE TO CHINA”
Author: Mr. Swaminathan Venkataraman, Director, Nandini Consultancy (S) Pte Ltd, Singapore www.nandinichemical.com
Chinese scenario
The study concludes that basic strength of Chinese chemical industry are intact, though the growth
of Chinese chemical industry have somewhat slowed down in recent time. The author points out
that the growth in China has not halted, but is now stabilizing at more realistic level resulting in
consolidation of Chinese chemical industry.
Indian chemical industry has to keep an eye on China all the time, in view of its dominating presence
in the global market, which is likely to continue for long time to come.
Approach of multinational companies
Spectacular growth of chemical industries in China in recent years has not only benefitted the
Chinese economy and chemical industry but also the fortunes of several multinational
chemical companies, which have invested huge sum in China and reaped the benefits. Multinational
companies are not unduly perturbed by the recent slowdown in China and they continue to bet on
China, as evident from the continued expansion by several multinational companies in China
including by BASF, Dow and others. Several instances have been highlighted.
In any case, as China is unlikely to record spectacular level of growth in the coming period, similar to
what it achieved in the last decade, multinational companies have to look for alternate regions,
in addition to China, for investment and for market penetration to sustain their own growth.
A well researched book on appropriate
strategies to forge ahead for Indian chemical
industry, discusses about the weakness and
strength of Indian chemical industry, with
particular reference to the competitive global
market, where China has emerged as
dominating player. Ways and means have
been suggested for the Indian chemical
industry to derive benefits from the present
situation.
The recent slowdown trend in the global
economy are analyzed with facts, figures and
case studies, which has been largely
caused due to the problems faced by Chinese
economy as a result of over capacity creation
in China, leading to under utilization of
capacity and consequent debt burden for
industries and investors.
Nandini Chemical Journal, November 2015 Page 15
BOOK REVIEW “GROWTH STRATEGIES FOR INDIAN CHEMICAL INDUSTRY IN THE CONTEXT OF GLOBAL SLOWDOWN,
WITH PARTICULAR REFERENCE TO CHINA”
Indian scenario
Obviously, India stands as prospective destination for the multinational companies, as India remains
largely insulated from the global slowdown and represents an under penetrated potential market
with considerable landscape, resources and tropical advantages.
This is clearly evident from the huge welcome received by Indian Prime Minister during his recent
visits abroad and the visits of several world leaders to India , the recent one being that of the
Germany chancellor,
The author stresses the fact that most of the problems faced by the Indian chemical industry are
due to lack of capacity creation efforts during the last 10 years , in tune with the growth in
demand.
The book discusses various issues facing the Indian chemical industry that have come in the way of
building up of capacity. While discussing the issues, Indian scenario have been compared to China, as
there is need for Indian chemical industry to bench mark with China.
Indian import trend
Increasing Indian import trend with regard to chemicals presently produced, chemicals not produced
and the chemicals now not produced but produced earlier have been indicated clearly with data
and chart, highlighting the fact that India has become net importer of several chemicals.
Author argues that there is urgent need to kickstart the manufacturing activities in the small,
medium and large scale sector. However, there are certain impediments in doing so.
Inadequate technology development efforts
Of the many issues, inadequate focus on research and development to develop appropriate
technology in tune with the Indian need is pointed out as major deterrent factor. As a result, several
units in small and medium scale could not be set up, in spite of adequate demand in the country due
to want of indigenous technology. Such small and medium scale units cannot afford to buy
technology from overseas sources due to prohibitive cost factors.
In the case of large scale sector, it appears that the capacity creation in India has largely been
conditioned by the willingness of overseas suppliers to provide technology on turnkey basis. Indian
chemical industry is often seen paying huge fees for such technology acquisition from abroad.
Technology for the products already produced in India are being repeatedly sought from
abroad. Several case studies have been highlighted in the book to explain the scenario.
Both CSIR labs and the companies in public and private sector are blamed for such impasse in R&D
programme.
Several measures have been suggested to augment R&D efforts including need for research index to
quantify contribution of R&D to overall growth of the chemical industry and national economy.
Need to avoid impending energy crisis
The book discusses the impending energy crisis in India due to huge import of crude oil, natural gas
and coal, with no sign of indigenous production of these feedstock / fuel source being increased to
the level of requirement in the near future. Several energy options have been discussed in detail.
Nandini Chemical Journal, November 2015 Page 16
BOOK REVIEW “GROWTH STRATEGIES FOR INDIAN CHEMICAL INDUSTRY IN THE CONTEXT OF GLOBAL SLOWDOWN,
WITH PARTICULAR REFERENCE TO CHINA”
Other needs
Need for more proactive government policies, strategy to overcome land acquisition issues,
importance and strategy for promoting joint ventures abroad, promotion of industrial parks, revival
programme for sick projects and rationale of unrelated diversification etc. have also been discussed
with several case studies and supporting data.
Form: Book is published in CD as pdf in ppt format, consisting of around 250 slides
Published by Nandini Consultancy Centre Pvt. Ltd,M-60/1, IV Cross Street,Besant Nagar, Chennai-600 090,India
Phone No.044-24916037
nsvenkatchennai@gmail.com, www.nandinichemical.com Price: Rs. 3000/- per copy
Missed opportunities
Finally, the author laments about the several
missed chemical project opportunities in
India, due to want of focused efforts and
suggests strategies for identification of
appropriate project opportunities for
investment.
The profile of selected missed chemical
project opportunities are discussed, by way
of example.
The book has the depth and clarity and
meets the expectations of discerning
chemical industry professionals
Need for strong trading houses
Apart from several other issues discussed,
the importance of floating strong trading /
distribution companies to penetrate the
export market have been stressed and a
number of case studies have been provided
with suggestions.
NANDINI CHEMICAL JOURNAL IS NOW CONSIDERED AS THE BEST JOURNAL
OF IT’S KIND IN INDIA, CARRYING OUT HIGHLY RELIABLE AND
INVESTIGATIVE ARTICLES AND ANALYSIS ON CHEMICAL INDUSTRY ALL OVER
THE WORLD.
AS YOU READ NANDINI CHEMICAL JOURNAL,YOU ARE FORGING AHEAD.
Nandini Chemical Journal, November 2015 Page 17
AUTOMOTIVE CATALYST – GLOBAL TREND
Demand drivers
The demand for mobile emission catalysts is driven by the automotive demand—because tightening
emissions legislation will enable catalyst producers to differentiate and provide more complex,
higher value solutions.
In the United States, the Corporate Average Fuel Economy (CAFE) standards continue to
strengthen, which will continue to increase emission systems complexity, Not only filter or selective
catalytic reduction (SCR) systems but fully integrated canister systems will continue to strengthern.
There is still room for stricter standards in both China and developed markets to boost both
volumes and complexity for auto catalysts. The Euro 5 regulation is nowhere near the existing
Euro 6. China is moving from Euro 4 to Euro 5 standards from the beginning of 2015–16.
Demand growth
The Catalyst Group (TCG; Spring House, PA,USA). has forecast 8 to 9% YOY demand growth for
mobile emission catalysts from 2013 to 2019.
This factors in growth for light automobiles—for which catalyst demand is expected to grow 4 to
5% YOY—and non road and marine applications, that will increase demand significantly.
Technology aspects
The biggest innovation change for catalyst makers, particularly in regard to vehicles, has been the
growing switchover to zeolite technology in heavy duty diesel applications. Typically these are
copper and iron zeolite catalyst systems.
Historically, cordierite or silicate honeycomb structures were used.
Another recent trend has been the integration of functions. For example, in heavy duty diesel
applications, diesel oxidation catalysts, lean NOx traps, diesel particulate filters, and SCR systems are
being combined.
Such integrated or system components are ideally designed to reduce costs, but they still have to
maintain very demanding performance efficiencies to meet fuel economy standards and emission
restrictions. These system components are increasingly complex.
Important producers
BASF
BASF has emissions catalysts manufacturing operations at Guilin, China; Chennai, India;
Rayong, Thailand; and jv manufacturing sites in South Korea and Japan.
The long term prospects for automotive catalyst sales is positive, given the implementation of the
stricter Euro 4 regulations, based on European emissions standards.
Nandini Chemical Journal, November 2015 Page 18
AUTOMOTIVE CATALYST – GLOBAL TREND
The company is planning to construct a facility to replace an existing plant, providing increased
operating space and upgraded manufacturing capabilities. The existing plant opened in 2001 and
growing demand from tightening emissions regulations has driven the need for a larger facility with
the latest equipment to provide state of the art manufacturing capabilities.
Upon the completion of the expansion project in the second quarter of 2017, the new site will
house four production lines for both light duty and motorcycle emissions catalysts, helping
customers meet increasingly stringent regional emissions regulations.
Late last year, BASF inaugurated an expanded mobile emissions catalysts manufacturing operation at
Shanghai, China. The expansion doubled the company’s production capacity for mobile emissions
catalysts in China, adding light duty emissions catalysts production lines, a heavy duty diesel catalysts
plant and an automated warehousing facility.
Haldor Topsoe
Haldor Topsoe is bringing a new facility online in Tianjin, China. A second phase of production will
be added at the facility in 2016. The company is also adding capacity at Joinville, Brazil, over the next
couple of months.
*****
BASF announced in August that its BASF
Chemcat Thailand (Pluakdaeng, Thailand)
subsidiary is investing to expand its
production capacity for mobile emissions
catalysts.
BASF Chemcat Thailand is a joint venture
of BASF and N.E. Chemcat (Tokyo).
DIRECTORY OF
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AND
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Nandini Chemical Journal, November 2015 Page 19
NEODYMIUM BUTADIENE RUBBER - PRODUCT PROFILE
Green tyres
Evolution in tyre technology is accelerated by strict environmental legislation focusing on less fuel
consumption and including minimum low rolling resistance,leading to the demand for high
performance tyres or `Green tyres’
Nd-BR in ultra high performance tyres allows increase of elasticity/endurance and durability, which
results in improved fatigue resistance and groove cracking resistance, better abrasion resistance,
higher rebound resilience as well as lower heat build up under dynamic stress and improved rolling
resistance.
SSBR is mainly used in the tread compound of “Green Tyres”, where it helps to reduce rolling
resistance and improve grip on wet roads.
Consumer prefer purchase of “Green Tyres” due to their long service life and better safety
properties.
The demand for SSBR alongside Nd-PBR (Neodymium based Performance Butadiene Rubber) will
increase steadily , as they are considered to be essential for the (further) development of
economical, safe, long lasting tyres.
A practical tyre test carried out by LANXESS together with a global chemical logistics provider
demonstrated that “green tyres” can reduce the fuel consumption of trucks by 8.5 percent. Another
test conducted jointly with RheinEnergie, a German energy provider, has shown that “green tyres”
can reduce the fuel consumption of passenger vehicles by as much as 7 percent in urban traffic.
Neodymium Butadiene Rubber (Nd-BR) is the most advanced butadiene rubber.
Nd-BR serves a vital function in tyre walls and treads, increasing fuel efficiency. It also reduces
tyre abrasion, which means that it can be used to make cars safer as well as more economical.
The use of Nd-BR makes it possible to produce tyres that offer low rolling resistance and high
level of durability and safety.
In addition to its use in the manufacture of high performance tyres, Nd-BR also plays a part in
improving the performance of golf balls, running shoes and conveyor belts.
Styrene-butadiene rubber grade (SSBR) as well as
Nd-PBR (Neodymium based Performance Butadiene
Rubber) are considered as “green tyres”..
“Green Tyres” can reach their peak performance with
formulations containing both Nd-PBR and SSBR.
Nd-PBR is highly resistant to abrasion and plays a
significant role in making tyres safer and, above all,
more durable. Nd-PBR is used in the treads and
sidewalls of “Green Tyres”. It helps reduce the rolling
resistance and increase the fuel efficiency of a tyre.
Nandini Chemical Journal, November 2015 Page 20
NEODYMIUM BUTADIENE RUBBER - PRODUCT PROFILE
Labelling of tyres
Demand for “Green Tyres” is being driven by the introduction of tyre labeling around the world.
The mandatory performance labelling of tyres, including minimum rolling resistance, was formally
introduced in 2010 in Japan, 2012 in Europe and is expected to be implemented in 2015 in China as
well as in 2016 in North America and Latin America
November 2012 saw the launch of mandatory tyre labeling in the European Union (EU). Tyres are
graded from A to G according to their fuel efficiency and wet grip. Rolling noise is also measured.
Therefore, the new legislation provides more transparency for consumers by highlighting the added
value of “Green Tyres”.
Japan and South Korea were the first countries in the world to introduce a label system. After
voluntary tyre label was introduced in Japan in January 2010, South Korea launched its voluntary
labeling in November 2011 and introduced mandatory label in December 2012.
Other countries like Brazil, the USA and China are expected to follow in the coming years.
Producer’s specification Name of the producer -Kumho Petrochemical ,South Korea
Item NdBR-40 NdBR-60
cis-1,4 content (%) min. 97.0
Raw Mooney Viscosity (ML1+4,100°C) 43 63
Stability Non-staining
Volatile matter (%) max. 0.5
Ash contents (%) max. 0.5
Specific gravity approx. 0.91
Mooney viscosity (ML1+4,100°C)of compounded Rubber *1) 68 93
Rheometer properties (160°C, ARC°±1°C) *2)
ML (lbf ·in)
MH (lbf·in)
Ts01 (min)
T`50 (min)
T`90 (min)
9.4
40.5
3.7
8.6
11.3
12.5
43.9
3.4
8.4
11.1
300% Modulus (kgf/cm2) *3)
Tensile Strength (kgf/cm2) *3)
Elongation (%) *3)
100
220
520
110
230
510
Manufacturing process
Most PBRs are made by a solution process, using either a transition metal (Neodymium (Nd), Nickel
(Ni) or Cobalt (Co)) complex or an alkyl metal like n butyllithium, as catalyst.
The solution polymerisation process, is the popular one.Two types of solution PBR have emerged as
important commercial rubbers the high cis and the medium cis PBRs.
The production of the former involves co ordination catalyst systems based on Nd, Ni,Ti or Co,
while that of the latter involves alkyl lithium catalyst systems.
Nandini Chemical Journal, November 2015 Page 21
NEODYMIUM BUTADIENE RUBBER - PRODUCT PROFILE
Polymers made with neodymium catalyst are highly linear with broad molar mass distribution,
giving good properties, except for extrudability and cold flow. This catalyst system produces the
highest cis content of about 99%, and produces a polymer with the best tensile and hysteresis
(low heat build up) properties of all the high cis types.
Nickel systems tend to produce rather more highly branched products, with better processability,
but lower tensile strength and fatigue resistance.
Titanium and cobalt based products are between these two extremes and the degree of branching
can in any case be varied in the cobalt catalysed system. The cobalt system produces a highly
branched PBR with low solution viscosity that makes a good polystyrene and ABS modifie
Facilities of Lanxess
LANXESS has inaugurated its new neodymium butadiene rubber (Nd-BR) plant in Singapore .
Located next to LANXESS’ existing butyl rubber plant on Jurong Island, the world scale facility
represents an investment of approximately EUR 200 million .
The close proximity of LANXESS’ two synthetic rubber production sites on Jurong Island has
enabled shared infrastructure and logistics, resulting in lean and efficient operations.
With an annual production capacity of 140,000 metric tonne, production will be ramped up
gradually. The facility will produce Nd-BR for global markets, with an emphasis on the growing Asian
markets.
The new plant in Singapore is LANXESS’ first Nd-BR site in Asia and joins the 9 additional
production facilities operated by the company’s Tyre & Specialty Rubber (TSR) business unit in
North and South America and Europe. In addition to Nd-BR, the business unit produces other
varieties of butadiene rubber, including solution styrene-butadiene rubber (S-SBR) and several types
of butyl rubber.
Facilities of Styron
Styron, the US based plastics, rubber and latex company, will convert its Nickel butadiene rubber
(Ni-BR) production train in Schkopau, Germany, to Neodymium butadiene rubber (Nd-BR).
This conversion coupled with Styron’s existing leading technology in Solution Styrene Butadiene
Rubber (SSBR), will allow the company to help customers around the world meet the increasing
demand for “green tyres” / ultra high performance tyres.
The conversion of the Ni-BR production line in Schkopau is expected to be completed in 2015.
Styron’s Schkopau production site currently hosts seven world-scale rubber trains that supply tyre
customers around the world.
Facility of Kumho Petrochemical,South Korea
The company has production capacity of 55,000 metric tonne per annum for Nd-BR.
Facility of Synthos Group S.A, Poland
The production plant is located inKralupy in the Czech Republic. Nd-BR produced by SYNTHOS is
sold under the trade name SYNTECA®44 and SYNTECA®63.
Nandini Chemical Journal, November 2015 Page 22
BROMINE – INVESTMENT OPPORTUNITY
Molecular Formula: Br2
CAS No. 7726-95-6
Physical State: Liquid
Appearance: Dark red brown
Odour: Pungent odour.
Solubility: Partially soluble.
Stability Chemically stable
Storage:
Bromine is usually stored in glass bottles or in barrels coated with lead or monel metal.
Conditions to avoid:
Incompatible materials, ignition sources, dust generation, contact with water, combustible materials,
organic materials, reducing agents.
Specification of liquid bromine technical)
Description Value
Bromine, percent by mass, Min 98.5
Chlorine (as Cl) by mass, Max 0.5
Non volatile matter, percent by mass, Max 0.05
Iodine (as I), percent by mass, Max 0.05
Sulphates (as SO4), percent by mass, Max 0.015
Application sector
Flame retardant
Large use and probably the most important applications of bromine is in brominated flame
retardants.
Water purification
Brominated compounds are used for water treatment in swimming pools and hot tubs as water
purifier and disinfectant. They are also used to control algae and bacterial growth in industrial
processes.
Bromine is an indispensable raw material for inorganic chemical intermediates, photosensitive
materials, dyes and pharmaceuticals.
Bromine is also the base ingredient used in the manufacturing of hydrobromic acid (HBr), which is
further utilized as raw material for organic intermediates including lithium bromide and
terephthalic acid.
Nandini Chemical Journal, November 2015 Page 23
BROMINE – INVESTMENT OPPORTUNITY
Agriculture
Bromine compounds are effective pesticides, used both as soil fumigants in agriculture, particularly
fruit growing, and as a fumigant to prevent pests from attacking stored grain and other produce.
Significant volumes of world trade in agriculture goods depend on the use of bromine compounds to
ensure compliance with mandatory rules on quarantine.
Pharmaceuticals
Brominated substances are important ingredients of many over the counter and prescription drugs
including analgesics, sedatives and antihistamines. Currently, several drugs containing bromine
compounds are undergoing trials for treatment of Alzheimer's disease and new generations of
anti cancer and AIDS drugs.
Photography
Bromine compounds are used to make the light sensitive component of a photographic emulsion.
Miscellaneous uses
Ethylene bromide is still an important compound because of its use to destroy nematodes and other
pests in soils. Bromine is also used in the production of catalysts, such as aluminum bromide.
Bromine has other uses, as in making various dyes and the compounds tetrabromoethane (C2H2Br4)
and bromoform (CHBr3), which are used as liquids in gauges because of their high specific gravity.
Other bromine compounds of significance include hydrogen bromide (HBr), a colourless gas used as
reducing agent and catalyst in organic reactions.
A solution of the gas in water is called hydrobromic acid, a strong acid that resembles hydrochloric
acid in its activity toward metals and their oxides and hydroxides.
Manufacturing process outline
The chief commercial source of bromine is ocean water, from which the element is extracted by
means of chemical displacement (oxidation) by chlorine in the presence of sulphuric acid through the
reaction
The product of the reaction is dilute solution of bromine, from which the element is removed by
blowing air through it. The free bromine is then mixed with sulphur dioxide and the mixed gases
are passed up a tower, in which water trickles down.
The following reaction takes place in the tower:
The above reaction is resulting in a mixture of acids that is much richer in bromide ion than
seawater. A second treatment with chlorine liberates bromine, which is freed from chlorine and
purified by passage over moist iron filings.
Commercial bromine generally contains up to 0.3 percent chlorine.
Nandini Chemical Journal, November 2015 Page 24
BROMINE – INVESTMENT OPPORTUNITY
Indian scenario
Indian Import / export
Period (April to March) Import Export
Quantity in thousand metric tonne
2010-2011 6,702.9 22.05
2011-2012 6,908.92 0.42
2012-2013 5,527.97 84.99
2013-2014 6,611.68 56.92
2014-2015 5,530.91 1,291.36
Pattern of country wise Indian import
Period April 2014 to March 2015
Pattern of country wise Indian export
Period April 2014 to March 2015
Israel 62%
Jordan 38%
UK 1%
China P RP 99%
Nandini Chemical Journal, November 2015 Page 25
BROMINE – INVESTMENT OPPORTUNITY
Indian producers
Tata Chemicals
Tata Chemicals complex in Mithapur , Gujarat produces bromine and bromine based compounds
Installed capacity 2,400 metric tonne per annum Annual sale value
Period (April to March) Sales value in Rs.Crore
2010-11 16.46
2011-12 24.33
2012-13 17.67
2013-14 21.92
2014-15 20.68
The company acquired dry bromine technology in 2013 from De Dietrich
Solaris ChemTech Industries / Chemtura
Chemtura purchased the bromine assets of Solaris ChemTech Industries in Gujarat.
The assets include two manufacturing plants, R & D facility, and a multi product facility, all located in
Gujarat. The deal increase Chemtura’s . global bromine capacity by around 10%
Chemtura has signed a letter of intent with Archean Group (India) to form a strategic alliance in
bromine and brominated derivatives.
Hindustan Salts Ltd,Jaipur,
The company proposes to increase the capacity of bromine plant from 900 metric tonne per
annum to 1300 metric tonne per annum.
Agrocel Industries Limited (Agrocel) .Gujarat
Located in the Kachch region in Gujarat , Agrocel's Marine Chemicals Division has manufacturing
facility for extracting bromine from sea water
* Southindia Bromine & Allied Chemicals Pvt. Ltd Tuticorin. Tamil Nadu
Global scenario
Total global production of bromine: Around 400 000 metric tonne per annum
Nandini Chemical Journal, November 2015 Page 26
BROMINE – INVESTMENT OPPORTUNITY
Production of bromine in selected regions
Country 2010 2011 2012 2013 2014
In metric tonne
Israel 185000 202000 174000 172000 180000
China 150000 150000 100000 110000` 110000`
Jordon 85000 300000 200000 80000 80000
Japan 20000 20000 20000 20000 20000
Ukraine 4100 4100 4100 4100 4100
Azerbaijon 3500 3500 3500 3500 3500
Germany 985 1500 1500 1500 1500
Turkmenistan 150 150 150 500 500
Scenario in China
At present, there are around 60 bromine manufactories in China, with the total capacity of nearly
200 kilo metric tonne per annum.
Chinese bromine is mainly produced from bromine containing brine (sea water). In winter, at low
temperature, extracting bromine causes both massive brine discharge and serious pollution near the
shore. Typhoon season is not suitable for bromine production. In flood season, factories in coastal
areas ,such as Hebei and Tianjin, have to shut down production because of reduced concentration of
bromine in the brine.
Chinese bromine production is concentrated mainly at the Bohai Bay and more than 80% of the total
output of bromine comes from Shandong province.
The factories in Shandong province produce mainly flame retardants, bromine series pesticides and
pharmaceuticals; the manufacture of bromine dye products is concentrated mainly in Jiangsu and
Zhejiang provinces.
Over 98% of China’s imported bromine comes from Israel and Jordan. Other sources include the
United States, China’s Taiwan region, Ukraine, India and South Korea.
China’s import and export of bromine
Year Import in metric tonne Export in metric tonne
2009 12491 2
2010 22450 8
2011 22837 7
2012 26270 0
2013 33445 0
2014 34664 104
Lubei Chemicals, China
Lubei Chemicals is located in Wudi Count, Binzhou city of Shandong province. Lubei Chemicalls will
increase capacities to 2 million metric tonne per annum for salt and 6.25 kilo metric tonne per
annum for bromine.
Nandini Chemical Journal, November 2015 Page 27
BROMINE – INVESTMENT OPPORTUNITY
Albemarle
Albemarle is a global leader in the development, manufacture and marketing
of bromine,bromine derivatives and other specialty chemicals.
Jordan Bromine Company (JBC) is a joint venture between Arab Potash Company and US based
Albemarle Holding Company,
JBC is located on the Dead Sea in Safi, Jordan
Albemarle’s joint venture with Arab Potash Co. Amman, Jordan), Jordan Bromine Co. (JBC, Safi,
Jordan), commissioned the first phase of expansion project at its Safi site. The expansion project
doubled the site’s bromine production capacity to 100,000 metric tonne per year..
The second phase of the expansion increased the capacity of bromine derivatives hydro bromic
acid, calcium bromide, and sodium bromide. The original design capacity was for 500 metric tonne
per year of tetrabromobisphenol A; 40,000 metric tonne per year calcium bromide; 10,000 metric
tonne per year of sodium bromide and 2,500 metric tonne per year of hydrogen bromide.
Jordan Bromine Co
Jordan Bromine Co., produces bromine, 25,500 metric tonne per year tetra bromo bisphenol-A,
40,000 metric tonne per year calcium bromide, 10,000 metric tonne per year of sodium bromide,
and 2,500 metric tonne per year of hydrogen bromide.
The second phase of the expansion will double the current capacity of key bromine derivatives,
hydrobromic acid, calcium bromide, and sodium bromide, and is scheduled for commissioning in
May 2013.
Chemtura
Chemtura’s U.S. operations have the capacity to produce about 100,000 metric tonne per year of
bromine.
Chemtura sells bromine into the agricultural and pharmaceutical intermediates markets, as well as
into flame retardants, for electronics and insulation and mercury scrubbing. The latter two are the
biggest growth drivers in the business.
Gulf Resources ,China
Gulf Resources, a leading manufacturer of bromine, crude salt and specialty chemical products in
China, announced that its wholly owned subsidiary Shouguang City Haoyuan Chemical Company
Limited ("SCHC") has signed an agreement to acquire manufacturing assets involved in bromine and
crude salt production.
The acquisition will result in additional annual production capacity of 3,000 metric tonne of bromine
and 100,000 metric tonne of crude salt, expanding the consolidated annual production capacity of
the company to 46,300 metric tonne of bromine and 550,000 metric tonne of crude salt.
Nandini Chemical Journal, November 2015 Page 28
BROMINE – INVESTMENT OPPORTUNITY
Tosoh Corporation,Japan
Tosoh Corporation is Japan's sole bromine manufacturer.
Others
Cabot and Calgon Carbon supply activated carbon treated with bromine.
Prospects for bromine in reducing mercury emission
Bromine has the ability to reduce mercury emissions from the smokestacks of coalfired power
plants. It is expected that demand for mercury reducing bromine additives such as calcium bromide
and hydrogen bromide, would increase dramatically.
U.S. regulations requiring the removal of 90% or more of mercury emissions from power plant
smokestacks should finally go into full force in 2016. Those regulations and similar rules already in
effect in 16 U.S. states are creating what market observers are calling a multi billion dollar per year
mercury emission control market.
Consulting firm IHS Chemical says that bromine use in mercury mitigation was “negligible” until
2011, when U.S. power plant operators used a little more than 2 million lb. By 2018, when all U.S.
regulations are expected to be in effect, plant operators will use more than 27 million lb of bromine.
Today, mercury abatement accounts for only about 2% of all bromine used worldwide,. Flame
retardants for plastics, in contrast, account for about half of all bromine use. But long term, bromine
for mercury control could grow substantially if other countries adopt similar rules,.
Chemtura, does not see mercury mitigation becoming as large a bromine market as flame
retardants. But it does see the business turning into a “significant outlet” for bromine.
At the same time, suppliers of alternative technologies, including Novinda and ADA-ES, want to
break the lock bromine appears to have on mercury mitigation by pointing to the corrosive effects
bromine could have on power plant equipment.
Global use pattern of bromine
Others 26%
Flame retardants for plastics
46%
Fluids for oil production
16%
Catalysts for plastics 6%
Water treatment 6%
Nandini Chemical Journal, November 2015 Page 29
SPOTLIGHT ON SPECIALITY CHEMICAL
TETRA ACETYL ETHYLENE DIAMINE (TAED) CAS No: 10543-57-4
Molecular formula: C10H16O4N2
Synonyms: N,N’-ethylenebis diacetamide,
N,N,N’,N’-tetraacetyl-1,2-diaminoethane
Packaging: 25 kg kraft paper bags, 600 kg jumbo bags
Toxicity:
Not classified as hazardous, as it can be produced without the formation of by products and is easily
biodegradable.
Storage
The product should be stored in cool, ventilated area, in tightly closed containers away from direct
sunlight and heat.
Applications
TAED is used as bleaching activator and it displays optimum effectiveness in the temperature range
of 30 to 60 deg. C. TAED powder makes simple dosage possible for industrial laundries.
Main applications of TAED
* Conventional, concentrated and
compact heavy duty detergents * Bleach boosters
* Dishwashing detergents * Hard surface / denture cleaners
Other areas of application
* Textile and paper bleaching * Disinfectants
Role of bleach activator in detergent products
Persalts like sodium perborate, sodium percarbonate have been used as a bleaching agent in several
detergent formulations. Their crystalline structure guarantees stability in storage and enable them to
be incorporated directly in detergents.
Hydrogen peroxide formed on being introduced into water only develops its oxidizing properties at
temperature higher than 80 deg. C when such persalts are used, preferably in the pH range of
11 to 12.
The effect which can be achieved with persalts alone is only slight at 30 to 60 deg. C.
However, by adding suitable bleaching activators such as TAED, the bleaching system can be made
to act effectively at reduced washing temperature.
TAED powder & granule form
TAED is available both in the powder and granular form.
TAED is used in granular form in detergent / washing powders and in powder form in other
applications like biocides, fabric bleaching etc.
Nandini Chemical Journal, November 2015 Page 30
TETRA ACETYL ETHYLENE DIAMINE (TAED)
TAED is not used in liquid detergents and liquid dish washers.
Since TAED in combination with hydrogen peroxide release bleaching agent, which is highly reactive,
it has to be stabilized by appropriate granulation/coating. TAED powder is not directly used. It is
granulated for end use application. The granulation auxiliary agents that are used would ensure rapid
dissolution in the washing liquor, so that the release of peracid is only retarded imperceptibly
compared to that of powder.For granulation, binders (like carboxy methyl cellulose) along with
other optional chemicals (such as dye, stabilizer) are used.
Specification
Name of the organization: WeylChem Wiesbaden GmbH (formerly owned by Clariant AG),
Germany
Description Value
Grade /
Brand name
PERACTIVE P PERACTIVE AN PERACTIVE AC PERACTIVE CB PERACTIVE 3711
Appearance White needles
(powder)
White spherical
agglomerate
Green , blue,
white spherical
agglomerate
White
aspherical
compactate
White noodles
extrudate
Active content > 98.5 % 84 – 88 % 90 – 94 % 90 – 94 % 88 – 92 %
Binder - Nonionic CMC Bentonite Nonionic
Moisture < 0.2 % < 0.2 % < 0.2 % < 0.2 % < 0.2 %
Density (g / l) 450 - 550 400 - 500 380 - 580 630 - 730 530 – 630
Particle size (%)
< 0.045 mm < 30 - - - -
> 0.100 mm < 35 - - - -
> 0.150 mm < 5 - - - -
< 0.200 mm - < 3 < 3
< 0.425 mm - < 10 -
> L600 mm - < 2 < 2
Application sector (Powder grade
is not used
directly but
converted to
granule for use)
Heavy duty
regular powder
detergents
Heavy duty
regular powder
detergents,
Heavy duty
compact powder
detergents,
Automatic
dishwashing
detergents
Heavy duty
compact
powder
detergents,
Automatic
dishwashing
detergents
Heavy duty
compact powder
detergents
Manufacturing process
TAED is produced in a two stage process from ethylene diamine and acetic anhydride .
TAED is manufactured by successive acetylation of ethylene diamine, first with acetic acid and then
with acetic anhydride. Excess acetic acid and excess acetic anhydride are recovered by distillation,
separated and reused within the process.
Nandini Chemical Journal, November 2015 Page 31
TETRA ACETYL ETHYLENE DIAMINE (TAED)
Following crystallization, isolated TAED solid is washed with recovered distillates and then dried to
remove any remaining residual wash materials.
Utilizing output from the initial TAED process, two further process recovery stages are carried out
to ensure maximum utilization of raw materials.
Role of peracetic acid system in end use products
TAED / persalt system releases highly reactive peracetic acid in the washing liquor even at lower
temperatures than the temperature required by persalt alone.
* TAED is used in detergents as bleaching activator for the activation of persalts like sodium
perborate tetrahydrate, the monohydrate or the percarbonate so that the bleaching system can be
made to act effectively at reduced washing temperatures.
* The stability of the persalts in storage is not affected negatively by the presence of TAED.
* TAED can be used in all types of commercial powder detergents (normal, concentrated and
compact) and is compatible with the other ingredients. It can be combined with builder systems such
as zeolite, layered silicates or phosphate.
Demand drivers for TAED
Increasing consumer awareness of the energy saving benefits of low temperature washing is
contributing to increase in demand for TAED.
TAED enables clothes to be washed effectively and safely at lower temperatures and with lesser
washing time, thereby reducing energy usage and minimizing environmental impact. TAED is also
readily biodegradable.
Global demand for TAED
Global demand for TAED : Around 100,000 metric tonne per annum
Global growth rate in demand through 2020: Around 1 %
Global producers
Important global producers include the following
Name of the organization Location Brand name
Warwick Chemicals
(acquired by Lubrizol)
Mostyn, united kingdom MYKON
WeylChem Wiesbaden GmbH
(formerly owned by Clariant AG)
Weisbaden, Germany PERACTIVE
Zhejiang Jinke Peroxide Co. Ltd. China -
Nandini Chemical Journal, November 2015 Page 32
TETRA ACETYL ETHYLENE DIAMINE (TAED)
Important producer in other region
Name of the organization Location / Remarks
*International Detergents
Chemicals Ltd. (IDC) (acquired by
Warwick)
Cork, Ireland
*The facility for TAED in Cork, Ireland was purchased in 1977 by Henkel from General Mills Ltd.
The plant produces around 12,000 metric tonne per annum of TAED . Henkel sold the plant to
DUBAG, Germany in 2011. Henkel and DUBAG had agreed on a multi year cooperation that
includes continued TAED supply to companies of the Henkel group. The plant was acquired by
Warwick Chemicals in 2012.
Pattern of country wise import in India: (Period: April 2014 to March 2015)
United Kingdom 88%
China 9%
Others (Hong Kong, Netherlands,
Portugal, Germany) 3%
Nandini Chemical Journal, November 2015 Page 33
TETRA ACETYL ETHYLENE DIAMINE (TAED)
Sample of imports
Perid Country Port Unit Quantity
1-Apr-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
8-Apr-2014 China Nhava Sheva Sea Kgs 4,000
5-May-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
21-Jun-2014 Hong Kong Banglore Air Cargo Kgs 11
24-Jun-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
9-Jul-2014 United Kingdom Chennai Air Cargo Kgs 12
15-Jul-2014 China Chennai Sea Kgs 2,000
1-Aug-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
22-Aug-2014 China Nhava Sheva Sea Kgs 2,000
3-Sep-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
11-Sep-2014 China Nhava Sheva Sea Kgs 500
11-Sep-2014 China Nhava Sheva Sea Kgs 500
25-Sep-2014 China Nhava Sheva Sea Kgs 2,000
18-Oct-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
27-Oct-2014 Germany Nhava Sheva Sea Kgs 1,000
28-Oct-2014 United Kingdom Chennai Air Cargo Kgs 1
28-Oct-2014 United Kingdom Chennai Air Cargo Kgs 8
29-Oct-2014 China Delhi Air Cargo Kgs 700
3-Nov-2014 Germany Bombay Air Cargo Kgs 1
7-Nov-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
12-Nov-2014 United Kingdom Delhi Air Cargo Kgs 3
9-Dec-2014 China Nhava Sheva Sea Kgs 1,000
24-Dec-2014 United Kingdom Nhava Sheva Sea Kgs 24,000
9-Jan-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
20-Jan-2015 China Nhava Sheva Sea Kgs 3,000
10-Feb-2015 Germany Nhava Sheva Sea Kgs 5,000
13-Feb-2015 China Nhava Sheva Sea Kgs 4,000
4-Mar-2015 Netherlands Bombay Air Cargo Kgs 50
4-Mar-2015 Netherlands Bombay Air Cargo Kgs 50
23-Mar-2015 China Nhava Sheva Sea Kgs 3,000
15-Apr-2015 China Nhava Sheva Sea Kgs 200
15-Apr-2015 China Nhava Sheva Sea Kgs 200
15-Apr-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
27-Apr-2015 United Kingdom Bombay Air Cargo Kgs 25
27-Apr-2015 United Kingdom Bombay Air Cargo Kgs 25
28-Apr-2015 China Nhava Sheva Sea Kgs 1,200
6-May-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
15-Jun-2015 United Kingdom Chennai Air Cargo Kgs 5
22-Jun-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
21-Jul-2015 China Nhava Sheva Sea Kgs 2,000
21-Jul-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
14-Aug-2015 United Kingdom Delhi Air Cargo Kgs 5
4-Sep-2015 United Kingdom Nhava Sheva Sea Kgs 24,000
23-Sep-2015 China Nhava Sheva Sea Kgs 2,000
Nandini Chemical Journal, November 2015 Page 34
ETHANE CRACKER PROJECTS IN USA
US cracker projects
Company Location Ethylene capacity* Status Start-up
Axiall/Lotte Louisiana 1,000 FID in 2015 End 2018
CPChem Baytown, TX 1,500 Construction Q4 2017
Dow Chemical Freeport, TX 1,500 Construction 2017
ExxonMobil Chemical Baytown, TX 1,500 Construction 2017
Formosa Petrochemical St. James Parish, LA NA FID 2016 NA
Formosa Plastics Point Comfort, TX 1,200 Construction 2018
Odebrecht/Braskem Parkersburg, WV NA Reevaluating 2020+
OxyChem/Mexichem Ingleside, TX 550 Construction 2017
PTT/Marubeni Dilles Bottom, OH 1,000 FID in 2016 2020
Sasol Lake Charles, LA 1,500 Construction 2018
Shell Chemicals Monaca, PA 1,500 FID “soon” NA
Shin-Etsu Plaquemine, LA 500 Construction 1H 2018
Total Port Arthur, TX NA Development 2019
Williams Geismar, LA NA Development NA
* Ethylene capacity in 1,000s metric tonne per year. FID=Final investment decision.
Source: Companies, IHS
Proposal of Formosa petrochemical
Formosa Petrochemical (Taipei) is studying the feasibility of a $9.4-billion ethylene project in
St. James Parish, LA,USA , consisting of two ethane crackers and multiple derivative plants.
Formosa Petrochemical plans to complete the Louisiana project in two phases. In the initial phase,
the company would build the first ethane cracker and downstream plants for the production of
low and high density polyethylene (PE), ethylene glycol (EG), polypropylene and other derivatives.
In the second phase, which would begin construction in 2022, the capacities would be doubled.
Formosa Petrochemical says that the project, when completed, would be one of the largest single
site ethylene production complexes in the world.
Affiliate company Formosa Plastics Corp. USA (FPC; Livingston, NJ) has over 500,000 metric tonne
per year of ethylene dichloride (EDC) capacity but no ethylene production at its facility in Baton
Rouge. By contrast, FPC’s Point Comfort, TX, facility is integrated back to ethylene. Two mixed-feed
crackers have a total ethylene capacity of about 1.5 million metric tonne per year,, and the company
is building a 1.15 million metric tonne per year ethane cracker that is slated to start up in 2018.
The site’s downstream operations include 1 million metric tonne per year of PE capacity,
almost 2 million metric tonne per year of EDC capacity and capacity for producing EG.
Formosa Petrochemical and FPC are both owned by the Formosa Plastics Group, which also
includes Nan Ya Plastics and Formosa Chemicals & Fibre. In 2014, the Formosa Plastics Group had
total revenues of $6.8 billion.
Six ethane crackers are already under construction in the United States and many others are
in various stages of development.
Nandini Chemical Journal, November 2015 Page 35
BATTERYGRADE LITHIUM CAPACITY OF ALBEMARLE
Albemarle’s lithium business is part of its performance chemicals segment, along with bromine and
curatives.
The energy storage, transportation, and consumer devices sectors are expected to join the
consumer electronics sector in adopting lithium ion batteries in the coming years. Growth is
expected to be in the double digits for transportation, energy storage, and consumer device
applications and in the high single digits for consumer electronics applications.
Albemarle’s lithium resources are located in Chile, Australia, and the United States. The company
was the world’s second largest lithium miner in 2014, after Talison Lithium (Perth, Australia)—
operator of the jv with Tianqi, which will serve as the lithium source for the new plant.
The lithium business is a key reason behind Albemarle’s $6.2 billion acquisition of Rockwood, which
closed in January 2015. Most of Albemarle’s lithium business was previously a part of Rockwood.
The company also makes lithium organometallics aimed at the synthetic rubber, pharma, agchems,
and block copolymers markets.
The lithium business has posted the most consistently high growth rates in the segment over the
past several quarters. Albemarle is aiming to “capture 50% of incremental growth in [the] energy
storage market,” driving growth in lithium.
Albemarle is commissioning a 20,000 metric tonne per battery grade lithium carbonate production
facility at La Negra, Chile. That plant is expected to begin producing commercial quantities of lithium
carbonate this year and increase production next year.
Albemarle has announced plans to increase its mineral conversion capacity by up to
50,000 metric tonne per to add capacity for battery grade lithium, including lithium carbonate
and lithium hydroxide.
The move responds to growing demand for energy storage in the transportation industry and
the energy infrastructure industry.
Albemarle has started feasibility studies
for a new project and is considering
locations in the United States and Asia.
The new production is expected to be
onstream in 2020 and will come on line in
multiple phases. The plant will source
spodumene ore from Albemarle’s jv with
Tianqi in Greenbushes, Australia, which
Rockwood Holdings had formerly
operated.
The mineral conversion plant will have the
flexibility to produce lithium carbonate
and lithium hydroxide and will be
designed to come online with staged
capacity that meets demand.
******
Nandini Chemical Journal, November 2015 Page 36
LI-ION BATTERY SEPARATORS FACILITY IN JAPAN
Ube Industries will expand its production capacity for lithium-ion (Li-ion) battery
separators by rebuilding existing facilities at its production complex at Ube, Japan, and
establishing new manufacturing facilities at its production complex at Sakai, Japan.
The move responds to growing demand for separators for automotive-use Li-ion
batteries. Demand for Li-ion batteries used in automotive applications is projected to
increase greatly, especially for hybrid vehicles, plug-in hybrid vehicles, and electric
vehicles. Advances in the development of Li-ion batteries for electricity storage and
industrial applications are also expected.
Ube began manufacturing separators at its Ube site in 1994. The company gradually
increased production capacity at that site in line with the expanding market for Li-ion
batteries.
The production of separators at Sakai began in 2013. The Sakai plant also supplies the
base material for coated separator films offered by Ube Maxell (Oyamazaki, Japan), a joint
venture established in 2011 between Ube and Hitachi Maxell (Osaka). Ube Maxell
manufactures coated separator films with diverse functions and the jv has steadily
increased its sales volume by taking advantage of market growth in and outside Japan.
In the first phase of the expansion, announced in September, the company will rebuild its
Ube facilities, and this is expected to be completed in July 2016. In the second phase, Ube
will establish production facilities at Sakai, to be completed in June 2017. The expansion
will increase the combined production capacity for Li-ion battery separators at the two
sites by about 40%. Ube says it is considering further increasing production capacity at the
two sites by 2020.
Nandini Chemical Journal, November 2015 Page 37
LIQUID CRYSTAL FACILITIES OF MERCK
Merck is pursuing a strategy of leveraging its expertise as the global market leader in liquid crystals,
in order to develop new fields of application for innovative liquid crystal technology.
The major innovation of liquid crystal windows lies in their ability of continuously variable switching
from light to dark in just seconds. The optimally controlled light and temperature management can
thus decisively improve the energy efficiency of a building. In addition, the smart windows technology
opens up totally new architectural possibilities.
Merck has acquired the Dutch specialist for smart window technology, Peer+.
Merck said the acquisition of its long standing cooperation partner will further advance the
development of the future oriented market for liquid crystal windows.
Merck and Peer+ have been cooperating closely since 2011 to develop a market ready product and
production concept for liquid crystal windows.
In 2012, the partners entered into a shareholder agreement ,under which Merck acquired 70% of the
capital interest in Peer+. Merck is now also acquiring the remaining 30%, including around 3% from
the Eindhoven University of Technology (TU/e), which co-founded Peer+ in 2008.
Peer+ has already built R&D production line for small quantities in Eindhoven. This shows how to
integrate the concept of liquid crystal windows into industrial settings. In the next step, Peer+ is
planning together with its partners a pilot line for custom tailored projects in the premium segment
of glass facades.
Merck announced construction on a modular Innovation Centre at the site. The building, which is
designed to promote interdisciplinary and project related collaboration on innovations, will be
completed in 2015.
Its module based construction design, the modular Innovation Centre will be completed in spring
2015, bridging the time until the final Innovation Centre would be completed in 2017.
Liquid crystal windows basically consist of two panes of glass that are glued together at a
distance of a few micro-meters. The inward facing sides of the panes are covered with a
transparent, electrically conductive layer (transparent conductive oxide) as well as an
orientation layer (polyimides). The gap between the coated substrates is filled with a special
liquid crystal mixture. The light transmittance of the window can be controlled by applying a
low electrical voltage.
Nandini Chemical Journal, November 2015 Page 38
NEWS ROUND UP - INTERNATIONAL
LDPE plant in Slovenia
Slovnaft (Bratislava, Slovakia) opened a low density polyethylene plant at Bratislava.
*****
Evonik buys Netherlands H2O2 producer
Evonik Industries agreed to acquire PeroxyChem Netherlands (Delfzijl), a producer of hydrogen
peroxide from PeroxyChem Holdings.
Evonik will take over PeroxyChem’s H2O2 manufacturing site at Delfzijl and the customer portfolio.
Evonik is the second largest producer of H2O2, behind Solvay.
Evonik’s combined capacity will rise to more than 950,000 metric tonne per year after the
acquisition, including more than 250,000 metric tonne per year in Europe.
The company’s Europe H2O2 plants are at Antwerp; Rheinfelden, Germany; and Weissenstein,
Austria. The company also has H2O2 plants at Umbogintwini, South Africa; Mobile, AL; Maitland,
ON; Gibbons, AB; Barra do Riacho, Brazil; Jilin, China; Ulsan, South Korea; Cikarang, Indonesia; and
Morrinsville, New Zealand.
*****
The company plans to invest approximately €900 million ($1.02 billion) in the project, which is
expected to be brought on line in 2018.
Ammonia complex in Russia
EuroChem (Zug, Switzerland), a leading fertilizer
company, says that its subsidiary Phosphorit has
commenced constructing an ammonia plant at
Kingisepp, Russia.
The plant will have a design capacity of one
million metric tonne per year. The project also
includes utilities and offsites, such as a warehouse
for liquid ammonia. All engineering, procurement,
and construction work is expected to be
completed within 36 months.
Epoxy thermal curatives
Evonik Industries says that its Evonik Jayhawk Fine Chemicals
(Galena, KS) subsidiary and Dixie Chemical (Pasadena, TX) have
entered into a joint development agreement under which Evonik
and Dixie will collaborate on thermal curatives that combine the
attributes of Evonik’s Jayhawk dianhydride and Dixie’s
monoanhydride competencies.
The portfolio of products will be available from Dixie in early
2016. These new products will not only address ease of use but
will also improve the properties of epoxy coatings, molding
compounds and composite materials.
*****
Nandini Chemical Journal, November 2015 Page 39
NEWS ROUND UP - INTERNATIONAL
Soda ash capacity expansion in Pakistan
ICI Pakistan (Karachi) has approved a phased expansion of 150,000 metric tonne per annum at the
company’s light soda ash plant at Khewra, Punjab Province, Pakistan, at the cost of about $90 million.
The facility currently has soda ash capacity of 350,000 metric tonne per year. The expansion of
dense soda ash and refined sodium bicarbonate production at Khewra should start commercial
operations in the company’s fiscal second quarter.
ICI Pakistan is a publicly quoted member of the Yunus Brothers Group (Karachi).
***** Nitrates, iodine production facility in Chile
Sociedad Química y Minera de Chile (SQM; Santiago) is halting mining activities at its Pedro de
Valdivia site, located in the second region of Chile, within two months.
The facility is mostly focused on producing nitrates, with capacity of about 500,000 metric tonne
per year, in addition to 2,800 metric tonne per year of iodine. SQM will maintain partial operations
at the site’s iodine plants and at other facilities at Pedro de Valdivia. Iodine and nitrate production
will, as a result, fall to about one third of current levels at the site.
Nitrates production will continue at SQM’s Nueva Victoria, Chile, site. Meanwhile, iodine
production at Nueva Victoria is expected to exceed 9,000 metric tonne per year.
SQM’s effective iodine production capacity—combining the operations at Nueva Victoria and Pedro
Valdivia—is expected to total about 10,000 metric tonne per year following the restructuring.
Meanwhile, the use of nitrates produced at Nueva Victoria will significantly reduce the production
costs of potassium nitrate and allow SQM to meet growing sales projections for specialty fertilizers
and solar salts.
“The decision to close the mining operation and part of the production plants of Pedro de Valdivia is
inevitable given the current production capabilities of the company,” says the company
SQM’s iodine production costs continued to decrease over the first seven months of 2015, when
they were down 14% year on year. SQM’s iodine and derivatives sales volumes totaled about
8,800 metric tonne. in 2014 and are projected to reach approximately 9,300 metric tonne this year.
******
.
Polyols plant from renewable raw material at
Cincinnati
Emery Oleochemicals has opened a $50-million
polyols plant at Cincinnati, designed to use renewable
raw materials and recycled content as feedstock
The plant, where construction started in late 2013, is
claimed to be the first industrial scale facility capable
of utilizing scrap foam as feedstock to manufacture a
range of sustainable polyols.
Nandini Chemical Journal, November 2015 Page 40
NEWS ROUND UP - INTERNATIONAL
The bio based and recycled content polyols can be used in a range of applications, including
automotive, furniture, major appliances, construction, coatings, adhesives, sealants, and elastomers.
The plant will also manufacture renewable based products for lubricants, polymers and biopesticides.
The process is capable of handling a broad range of foam types and grades. The focus is now on post
industrial scrap. The preferred method is a closed loop approach, where the company process a
specific customer’s foam back to a polyol to their specific application needs. It also source flexible
scrap foam on the open market. Nominal capacity of the plant is over 30,000 metric tonne per year.
Emery has also expanded the site’s technical development center, which will serve as its global
innovation hub for the biobased polyols, lubricants and pesticides.
******
Biogum facility
CP Kelco will expand its biogum manufacturing
facility and production capabilities because of
demand for specialty biogums products.
CP Kelco will expand its capacity for gellan gum
production at the company’s Okmulgee, OK,
facility.
Currently gellan gum is produced only at the
company’s San Diego plant. It will also develop new
capabilities for specialty xanthan gum production at
the company’s Wulian, China, facility.
*****
PUBLICATION ON
MINERAL BASED CHEMICAL PROJECT OPPORTUNITIES
IN INDIA
The chemicals discussed in this publication are based
on following minerals.
Ilmenite, magnesite, rock phosphate, silica, chrome
ore, lime stone, barytes, mica, talc / soap stone,
graphite, gypsum / plaster of paris, China clay / kaolin.
PUBLICATION AVAILABLE IN HARD COPY
CONTACT :NANDINI CONSULTANCY CENTRE,
CHENNAI – 600 090
Tel: 044- 43511945,43540719,24916037
E-mail: mail@nandinichemical.com,
nsvenkatchennai@gmail.com
Nandini Chemical Journal, November 2015 Page 41
BIOFUELS FROM WHISKY, FORESTRY AND OTHER WASTE
The company was a winner in a contest organized by the Department for Transport (London) and it
shares the £25 million total funding with two other companies: Nova Pangaea (Teesside, UK), which
aims to produce biofuels from forestry waste; and Advanced Plasma Power (APP; Swindon, UK),
which has a process based on household waste.
The award will allow the company to create Europe’s first facility in 50 years for acetone-butanol-
ethanol fermentation.
The planned facility will be built near Grangemouth and be operational by December 2018,
producing at least one million liters per year. It will develop the Weizmann process, which was
invented in the United Kingdom in the early 20th century, to produce acetone for explosives, but it
was phased out in the 1960s because of competition from the petrochemical industry. The process
produces principally butanol but also acetone and ethanol, as well as high grade animal feed.
Raw materials for the process are draff, the sugar rich kernels of barley that are soaked in water to
begin the fermentation process for whisky and pot ale, the yeasty liquid left over after distillation.
Whisky represents only 10% of a typical distillery’s production; the rest is draff and pot ale. Annually,
the Scotch whisky industry produces 1,600 million liters of pot ale and 500,000 metric tonne of
draff.
Bio fuel from forestry surplus
Of the other winners in the Department for Transport competition, Nova Pangaea, is to receive a
£3 million grant to fund the demonstration of its Refnova continuous process to produce C5 and C6
sugars and ethanol from waste and forestry surplus. The company will build a one
metric tonne per hour demonstration plant within the Wilton, UK, petrochemical complex.
APP secured a £11.0 million Department for Transport grant in a consortium to develop biofuels
from household waste. Its partners in the project are National Grid, Progressive Energy, and CNG
Services. APP’s planned facility at Swindon will be the world’s first to convert residual waste into
compressed biomethane. Construction on the plant is scheduled to start next year.
Celtic Renewables is a spin off from the Biofuel Research Centre at Edinburgh Napier
University.
Celtic Renewables (Edinburgh) has secured a £10.9-million ($16.8 million) UK government
grant to build the world’s first plant for producing advanced biofuels from the residues of
the Scotch whisky industry.
Nandini Chemical Journal, November 2015 Page 42
TECHNOLOGY DEVELOPMENT
Fragrance molecule production by Amyris
Renewable chemicals firm Amyris (Emeryville, CA) has developed a yeast strain for producing a new
fragrance molecule at commercial scale in less than 12 months from the start of strain engineering.
The company plans to begin manufacturing the molecule in 2015 at its Brotas, São Paulo, production
facility. The engineered strain has been designed, engineered, optimized and scaled for industrial
fermentation using Amyris’s synthetic biology platform.
The patented technology has enabled to deliver this fragrance molecule in half the time and at a
lower production cost than was originally planned. This is a major breakthrough for industrial
biotechnology, that will accelerate the commercialization of the 17 molecules currently under
contract for development in collaboration portfolio.
Separately, Amyris has announced a partnership with the Infectious Disease Research Institute
(IDRI), a Seattle based non profit research organization that uses biotechnology to create
diagnostics, drugs and vaccines. Amyris and IDRI have agreed to jointly explore testing and
developing an Amyris chemical for use in adjuvant formulations.
*****
Biomass derived polyisoprene rubber
Zeon (Tokyo), in joint research with the national R&D agency Riken (Wako, Japan) and Yokohama
Rubber Co. (Tokyo), has synthesized isoprene from biomass.
Isoprene is the raw material used to produce polyisoprene rubber, used for car tyres. Industrial
isoprene is currently a by product of the naphtha cracking process. This new technology will reduce
the dependence on petroleum and is expected to reduce carbon dioxide emissions, Zeon says.
Zeon, Yokohama Rubber and Riken have since 2013 jointly researched producing synthetic rubbers
from biomass. The organizations have taken advantage of the cell design and plant science
technologies of the Riken Center for Sustainable Resource Science. As a result, it has discovered a
method for synthesizing isoprene by designing an artificial metabolic pathway using in silico metabolic
design technology.
The organizations intend to commercialize the technology by the early 2020s. The chemical
structure of polyisoprene is similar to that of natural rubber and the material is often referred to as
synthetic natural rubber.
*****
Tannery waste paves way for environment friendly roads
Scientists at CSIR-Central Leather Research Inst. (CLRI),Chennai
and Central Road Research Inst. (CRRI), Delhi, have developed
technology to lay roads by blending solid waste from leather
tanneries into asphalt. This technology is considered to be both
economical and environment friendly and may set an effective
way to build roads. Tests conducted more than a year after
laying the roads found that they are durable and abrasion free.
Nandini Chemical Journal, November 2015 Page 43
TECHNOLOGY DEVELOPMENT
Considered to be the first of its kind initiative, scientists first thought of using tannery waste in laying
roads, as it contains a collagenous material that adds a strong bond to asphalt. This method was
conceived as part of a series of projects, where they conducted research on the most effective ways
to reduce effluents and reduce chromium pollution, for which leather tanneries are the biggest
contributors.
Scientists said a certain amount of chrome shavings, waste generated in tanneries during leather
levelling, is used as a blend ingredient in the slurry seal mix replacing, partially or fully, sand as a
medium. Conventional mix, made for laying roads, is a combination of asphalt emulsion and
aggregate of sand and water.
Chrome shavings, which are otherwise dumped in landfills and contaminate groundwater, can now
be constructively used.
*****
Bacteria neutralises carbon dioxide gas
A type of bacteria found at the bottom of the ocean could be used to neutralise large amount of
industrial carbon dioxide in the Earth’s atmosphere, researchers have found. Most atmospheric CO
is produced from fossil fuel combustion.
But converting the carbon dioxide into a harmless compound requires a durable, heat tolerant
enzyme. The bacterium, Thiomicrospira crunogena, studied by researchers from University of
Florida,USA, produces carbonic anhydrase, an enzyme that helps remove CO in organisms.
Biodegradable implant to help heal broken bones
A plastic derived from corn starch combined with a
volcanic ash compound could help heal the bones of
patients with orthopaedic injuries, who need bone
replacement, scientists have found.
The biodegradable polymer, reinforced with
Montmorillonite clay nano particles for strength,
dissolves in the body within 18 months. As the material
dissolves, new bone formation takes its place.
The material is created by injecting the polymer clay
mixture with carbon dioxide, resulting in an implant that
looks like foam, but is rigid like bone.
Researchers at the Beaumont Hospital - Royal Oak in US
designed the bone material to be porous, just like actual
human bone.
The goal is to use the material without any additional
permanent hardware placed in a patient's body. Current
procedures often require a metal or non-resorbable
plastic implant because traditional bone grafts are not
strong enough without the added support.
*****
Nandini Chemical Journal, November 2015 Page 44
TECHNOLOGY DEVELOPMENT
According to the researchers, , in an industrial setting, the carbonic anhydrase would be
immobilised with solvent inside a reactor vessel that serves as a large purification column.
Flue gas would be passed through the solvent, with the carbonic anhydrase converting the carbon
dioxide into bicarbonate.
*****
Cleaning rivers using a nano composite
Scientists from the Indian Institute of Science, Bengaluru have developed a novel ‘reusable’
nano composite material, with Cerium being the crucial compound in it, which can degrade microbes
and chemical dyes that are among common effluents in rivers.
Published in the Journal of Industrial and Engineering Chemistry Research recently, the scientists looked
at ceria (CeO) a cheap rare earth oxide, with properties that include a strong absorption of
ultraviolet light (this property also sees it being widely used for UV blocking and radiation shielding
agent).
It is this notion, that the compound can speed up the degradation of chemical dyes and the
bacteriumEscherichia coli (which forms a large chunk of organic waste in sewage) led the researchers
to develop ceria nanoflakes, which combine ceria with silver salts. In this composite, ceria absorbs
light across the spectrum (and not just UV light), while the silver salts (silver phosphate`````` and
silver bromide) form photocatalysis agents, where chemical reactions are accelerated in the
presence of light.
The superior photocatalytic activity of this nano-composite for the degradation chemical dyes is
attributed to its extended absorption in visible region and enhanced stability of the catalyst owing to
the firm adherence of silver bromide and phosphate to ceria nanoflakes
The results show that the composite material ended up generating large amounts of hydrogen
peroxide (a strong oxidizing agent) that degrades the dyes and bacteria.
The compound remains stable, even after seven cycles of its usage with polluted fluids.
The bacterium lives near
hydrothermal vents, so the enzyme
it produces is accustomed to high
temperatures.
The enzyme catalyses a chemical
reaction between CO and water.
The CO interacts with the
enzyme, converting the
greenhouse gas into bicarbonate.
The bicarbonate can then be
further processed into products
such as baking soda and chalk.
Nandini Chemical Journal, November 2015 Page 45
CHINA NEWS
Capacity expansion for tertiary Butylamine in Nanjing
tertiary Butylamine is a primary aliphatic amine that is used as an intermediate for the production of
accelerators for the rubber and tyre industry. It is also used as a building block in the pharmaceutical
and agricultural industries.
BASF has completed a major capacity expansion at its tertiary Butylamine (tBA) plant at Nanjing
Chemical Industry Park in China.
The tBA plant now has an annual production capacity of 16,000 metric tonne, representing an
increase of 60 percent from its initial annual capacity of 10,000 metric tonne.
In addition to the plant in Nanjing, BASF produces tBA in Geismar, Louisiana, United States and
in Antwerp, Belgium.
*****
Phosphoric Acid
Hubei Zhongfu Chemical Group began operation of a 100 000 metric tonne per annum phosphoric
acid project at Yichang, Hubei province on August 19.
The startup of this project helps Hubei Zhongfu to integrate the phosphorus mine, phosphorus
fertilizer, phosphorus chemical, phosphorus fine chemicals and phosphogypsum comprehensive
utilization business chain.
Construction on this project was started in May 2013, with a budget of RMB 580 million.
*****
Phthalic anhydride project
Xingtai Risun Chemical Company Ltd’s 2X40000 metric tonne per annum phthalic anhydride
project came on line on August 15 at Yanjiatun town, Xingtai, Hebei province.
This phthalic anhydride project mainly includes oxidation reactor, gas cooler, shifting condenser,
distillation column and other installations. Construction was begun on January 15, 2014.
The project, constructed by China National Chemical Engineering Co. Ltd., has capability of
producing 64 540 tonne of phthalic anhydride per year.
PUBLICATION
ON
DIRECTORY OF CHEMICAL INDUSTRIES IN CHINA
(COVERING CHEMICAL MANUFACTURERS,REFINERY / PETROCHEMICAL PLANTS /
TRADING HOUSES AND PROMOTIONAL BODIES)
UPDATED PUBLICATIONS ARE AVAILABLE IN CD
CONTACT: NANDINI CONSULTANCY CENTRE,CHENNAI-600 090
Tel: 044- 43511945, 43540719,24916037
E-mail : nsvenkatchennai@gmail.com,mail@nandinichemical.com
Nandini Chemical Journal, November 2015 Page 46
AGRO CHEMICAL PAGE
Whitefly attack due to excessive use of
urea
IFFCO blamed the excessive use of urea as one of
the main reasons behind whitefly attack on cotton
in Punjab.
Accounting to IFFCO, the main spoiler has been
the low cost urea that is being made available to
farmers. Excessive use of urea is hurting farmers
as it deteriorates soil health and finally affects the
farmers' crop yields.
Around 8,30,855 acres of land sown under cotton
in Punjab were affected due to pest attacks,
against which the state government has released
Rs 643.58 crore as compensation.
*****
PUBLICATION ON ALGAE BIOFUEL
GLOBAL OVERVIEW AND INDIA’S OPPORTUNITIES
The publication, which has been edited based on extensive study and research, discusses the
various recent developments across the world with regard to algae and its derivative
products. The book also highlights algae and its derivatives as an appropriate investment
opportunity in India.
The book consists of 269 pages and is
available as hard bound copy.
Price: The price is Rs. 3000/-( Rupees three
thousand only) including courier charges.
Cheque should be drawn in favour of Nandini
Consultancy Centre Pvt. Ltd., payable at
Chennai and sent to the following address;
Nandini Consultancy Centre Pvt.Ltd.,
M-60/1, IV Cross Street,
Besant Nagar,
Chennai – 600 090
Tel:91-44-43540719, 43511945, 24916037,
E-mail:mail@nandinichemical.com,
nsvenkatchennai@gmail.com
Nandini Chemical Journal, November 2015 Page 47
PHARMA PAGE
Indian patent for cilastatin drug
US based Hospira, now a subsidiary of pharma company Pfizer Inc, has secured an Indian patent for
an improved process for the preparation of Cilastatin -part of a medical compound used in the
treatment of a number of bacterial infections.
In February 2014, Pfizer had announced the $17 billion takeover of Hospira. The deal was to add
Hospira’s portfolio of sterile injectable treatments and biosimilar drugs to Pfizer’s broad pharma
offerings.
Cilastatin is a chemical which acts with antibiotic Imipenem for the treatment of infections of various
body systems. Imipenem and Cilastatin combined in a drug is an antibiotic. It is used to treat serious
infections that are mild to moderate in severity, such as lower respiratory infection and heart valve
infection. The Imipenem-Clastatin intravenous drugs are marketed under common brand name
Primaxin.
Cilastatin, a renal dipeptidase inhibitor, triggers the enzymatic breakdown of Imipenem and increases
urinary excretion of the active drug. Originally, Cilastatin was disclosed in a US patent and it also
discloses various processes for the preparation of Cilastatin.
The primary objective of the invention – which has now been granted patent – is to provide a
commercial process for the preparation of Cilastatin. The invention also offers to provide an
improved process for the preparation Cilastatin Sodium with high purity.
The patent application titled ‘an improved process for the preparation of Cilastatin’ was originally
filed by Chennai based Orchid Chemicals and Pharmaceuticals in 2005. With some business of
Orchid Pharma having been taken over by Hospira, in 2009, the patent application under process
was also transferred to Hospira. Hospira was recently acquired by Pfizer.
The acquisition included Orchid’s beta-lactam antibiotics manufacturing complex comprising
cephalosporin, penicillin and carbapenem facilities and pharmaceutical research and development
(R&D) facility at Irungattukottai, Chennai, as well as its generic injectable product portfolio and
pipeline. Beta-lactam antibiotics represent a class of drugs with a wide spectrum of antibacterial
activity.
In addition, the companies signed a long term exclusive agreement for Orchid to supply active
pharmaceutical ingredients (APIs) for the acquired generic injectable pharmaceuticals business.
******
Eli Lilly does not have any other drugs in late stage studies to treat cardiovascular problems, one of
the seven areas that the company focuses on.
Eli Lilly ends work on heart drug- Evacetrapib
Eli Lilly and Co has stopped development of its experimental
heart drug, Evacetrapib and scrapped a late stage study, as the
treatment did not show enough efficacy in the trial.
The company was testing its lead heart drug as treatment for
heart problems related to atherosclerosis, also known as the
hardening of the arteries.
Nandini Chemical Journal, November 2015 Page 48
PHARMA PAGE
New compound to fight Ebola
A compound that blocks the Ebola virus’ ability to replicate has been found to provide full
protection to monkeys when treated three days after the deadly infection, researchers have
reported.
The findings suggest that the compound, known as GS-5734, should be further developed as a
potential treatment for Ebola.
“If the virus cannot make copies of itself, the body’s immune system has time to take over and fight
off the infection,” said Travis Warren, principal investigator at the U.S. Army Medical Research
Institute of Infectious Diseases. The research was presented at IDWeek conference in San Diego.
*****
Potential malaria vaccine
Tata Institute of Fundamental Research (TIFR) have published a research paper on their early
success with a vaccine candidate for malaria.
The scientists identified a group of proteins present on the malaria spreading plasmodium parasite
and combined their finding with some cutting edge genetic and nanoparticle research, to produce
antibodies in mice to ward off a malarial infection.
The scientists found a five amino acid segment that is of prime importance to the malarial parasite.
Each of the parasite's cells uses this protein to break down glucose into energy. The scientists have
proven that this protein is important in spreading malarial cells to the host's red blood cells as well
as within the vector mosquito's stomach. "Blocking this protein would thus control the disease's
spread in humans as well as break the transmission cycle among mosquitoes," the scientists said.
The work was carried out in collaboration with the University of Maryland School of Medicine,
Baltimore, whose scientists have special nanoparticles that were genetically fused with the protein
segment. This was the vaccine candidate that was then injected into mice. The scientists found that
even a lethal strain of mouse malaria parasite in these vaccinated animals showed considerable
protection against malaria.
*****
Researchers from the University of Michigan created a new form of BanLec that fights viruses in
mice, but does not have a property that causes irritation and unwanted inflammation.
Drug from banana to fight AIDS
A substance found in banana and carefully edited
by scientists could lead to drugs that may fight off
a wide range of deadly viruses, including AIDS,
hepatitis C and influenza.
The new research focuses on a protein called
banana lectin, or BanLec, that "reads" the sugars
on the outside of both viruses and cells. Five
years ago, scientists showed that it could keep the
virus that causes AIDS from getting into cells but
it also caused side effects.
Nandini Chemical Journal, November 2015 Page 49
PHARMA PAGE
"The drug has extracts from four plants mentioned in Ayurveda and that makes it safe," said Dr AKS
Rawat, senior principal scientist, NBRI. It has been tested on animals and scientific study has found it safe and effective, with clinical trials showing 67% success.
The drug boosts immune system, works as antioxidant and checks free radicals. Though there are other
anti-diabetes herbal drugs in the market, 'BGR 34' has been validated scientifically. *****
FDA approves first of its kind product for the treatment of melanoma
The U.S. Food and Drug Administration has approved Imlygic (talimogene laherparepvec), the first
FDA approved oncolytic virus therapy, for the treatment of melanoma lesions in the skin and lymph
nodes.
“Melanoma is a serious disease that can advance and spread to other parts of the body, where it
becomes difficult to treat,” said Karen Midthun, M.D., Director of the FDA’s Center for Biologics
Evaluation and Research. “This approval provides patients and health care providers with a novel
treatment for melanoma.”
After the initial injection, a second dose is administered three weeks later, followed by additional
doses every two weeks for at least six months, unless other treatment is required or until there are
no remaining injectable lesions to treat.
CSIR launches herbal drug to fight type-II
diabetes A scientifically validated anti-diabetes herbal drug,
named 'BGR-34', was launched by Council of Scientific and Industrial Research (CSIR) lab in Lucknow.
A combination of natural extracts from plants, the drug is based on Ayurveda and has no side effects. The
drug is for management of type-II diabetes mellitus.
The drug has been jointly developed by two CSIR laboratories, National Botanical Research Institute
(NBRI) and Central Institute for Medicinal and Aromatic Plant (CIMAP).
Skin cancer is the most common form of cancer in the
United States. Melanoma, one type of skin cancer, is the
leading cause of skin cancer related deaths, and is most
often caused by exposure to ultraviolet (UV) light..
Imlygic, a genetically modified live oncolytic herpes virus
therapy, is used to treat melanoma lesions that cannot
be removed completely by surgery. Imlygic is injected
directly into the melanoma lesions, where it replicates
inside cancer cells and causes the cells to rupture and
die.
A treatment course with Imlygic consists of a series of
injections into the melanoma lesions.
.
Nandini Chemical Journal, November 2015 Page 50
US SHALE GAS FLOWS INTO SURPLUS MARKET
Apart from LNG project of Cheniere, four other U.S. projects have already broken ground including
Dominion Resources' Cove Point plant in Maryland expected in 2017, Sempra Energy's Cameron
LNG in Louisiana and Freeport LNG's plant in Texas that are expected to be operational in 2018
and Cheniere's Corpus Christi plant in Texas in 2019.More than a dozen other North American
projects are awaiting approvals.
Export of U.S. LNG will materialize at a time when the biggest market (Japan) is witnessing a demand
reduction from USA and when supply is growing again massively thanks to Australia.
Experts do not expect Cheniere's pioneer export plant to sit idle as its import facility did. BG
Group, one of the biggest suppliers of LNG in the world and the main shipper for the plant's first
phase, will be able to profit by shipping U.S. gas under existing long term contracts with Asian buyers
that offer higher prices than the short term rates. A rise in oil prices or an export outage in Qatar
or Australia could also quickly lead to a price rebound.
Cheniere's bottom line is protected by a $400 million annual fee, which BG Group will pay the plant
operator to ship 3.5 million metric tonne per year, an amount BG pays whether or not the gas is
shipped.
A Reuters analysis shows that slump in oil prices and global abundance of LNG threaten to
undercut the economics of U.S. gas exports. The analysing raise questions about the
profitability of short term shipments of gas from USA .
REPORT ON “CRUDE OIL PRICE FALL - WILL INDIA’S EUPHORIA CONTINUE “? Nandini Consultancy Centre, a firm of chemical engineers and chemical business consultants based at Chennai and Singapore, has released well researched report on “Crude oil price fall - Will India’s euphoria continue ? “ Focus of the report Global crude oil price fall in recent months has surprised even the discerning observers. Now, there is world wide debate as to what has caused the crude price fall and whether the price fall would persist and how long. This research report recommends that India should use this opportunity to work out it’s short term and long term strategies for crude oil sourcing and pricing. A few appropriate strategies have been suggested:
CONTENTS OF THE REPORT
* Crude price behaviour - Past trend * Likely Strategies of the producers * Global & regionwise consumption / production analysis * China’s strategies * Why crude price fall now ? * What should be the strategies for India? Author: The report has been prepared by Mr.Swaminathan Venkataraman, Director of Nandini Consultancy (S) Pte Ltd ,Singapore . Price & delivery: Price of the report is Rs.500/- (Rupees five hundred only) per copy inclusive of courier charges, payable by cheque drawn in favour of Nandini Consultancy Centre Private Ltd., Chennai
Order may be sent to Nandini Consultancy Centre,M-60/1, 4th Cross Street,Besant Nagar, Chennai-90. Phone:43511945 / 43540719
Email:mail@nandinichemical.com, web:www.nandinichemical.com
Nandini Chemical Journal, November 2015 Page 51
ENERGY PAGE
Proposed 17,418 MW solar power in parks
The Ministry of New and Renewable Resources has received consent for putting up 17,418 MW of
solar power plants, under the Scheme for Development of Solar Parks and Ultra Mega Solar Power
Projects. As many as 20 states have sent in their consent for 26 solar parks.
Andhra Pradesh wants to put up 3,500 MW across three parks in the districts of Kadapa and
Kurnool.
Three states from the North East – Arunachal Pradesh (100 MW), Nagaland (60 MW) and
Meghalaya (20 MW) – want to develop solar parks.
All states, with the sole exception of Tamil Nadu, have named the entity that would develop the
solar park.
MNRE wants to see 25 solar parks, each with capacity of not less than 500 MW, developed in the
country, so that 20,000 MW of solar power comes in these parks.
MNRE has set apart Rs. 4,000 crore for giving grant of Rs. 20 lakh a MW. These parks are to be set
up within five years from 2014-15.
*****
TAPTI gas field expected to cease production by year end
The depleted TAPTI gas field of the Panna/Mukta and Tapti (PMT) cluster in Arabian Sea is likely to
cease production in 3Q FY16, Reliance Industries has said.
Tapti gas field, off the west coast, produced 0.6 billion cubic feet (bcf) of gas in the July-September
quarter, down from 3.9 bcf in same period a year ago. The output was lower than 1.9 bcf in
April-June this year on account of natural decline.
BG Group of UK and Reliance Industries hold 30 per cent stake each in the PMT field, while state
owned ONGC has the balance 40 per cent.
Once production ceases, the consortium would move into the decommissioning phase and hand
over of certain Tapti facilities to ONGC, in accordance with the production sharing contract.
While Panna/Mukta are primarily oilfields, Tapti is a gas field. The production sharing contract for
PMT fields was signed in 1994. Panna/Mukta fields began production in December 1994 and Tapti
field began in 1997-98.
Rajasthan, through its own utility
as well as its joint ventures with
IL&FS and Adani group, has
wanted to put up 3,180 MW
across four parks.
Madhya Pradesh (2,000 MW),
Telangana (1,000 MW),
Himachal Pradesh (1,000 MW)
and Gujarat (700 MW) are
among the states that want to
develop large parks.
Nandini Chemical Journal, November 2015 Page 52
ENERGY PAGE
Prospects for hydrocarbon basin in Kutch offshore
Efforts of ONGC have led to the discovery of nine hydrocarbon prospects in its acreages in Kutch
offshore. The areas include acreages given on mining lease prior to licensing rounds and two blocks
won under the New Exploration Licensing Policy(NELP) rounds.
ONGC has drilled 49 exploratory wells, of which 47 fall in shallow water while 2 wells were drilled
in deep water areas
The Kutch Basin covers an area of about 28,000 sq km. Hydrocarbon exploration in Kutch Offshore
Basin was first initiated in 1964 when a Russian seismic survey acquired 2D data. ONGC has been
exploring the Basin for more than four decades.
*****
Shale gas exploration
In India, shale gas exploration is currently allowed for only government owned players — ONGC
and Oil India. So far, India has not commercially exploited shale gas and the two PSU firms are
working on test wells.
Recently, the Union government announced a marginal fields policy to auction 69 fields. As per the
latest policy, the government would allow explorers to exploit any hydrocarbon resources
conventional or unconventional – in these fields. However, no rights have been given to private or
foreign companies to find shale gas in India.
ONGC has started exploration in nearly 50 blocks, while Oil India is working on 3 blocks.
*****
Solar power tariff trend in India
Date Oct. 2014 Nov.2014 July 2015 Aug 2015 Sept.2015 Oct.2015 Nov.2015
State Andhra
Pradesh
Telangana Madhya
Pradesh
Telangana Punjab Uttarkhand National Solar
Mission/NTPC
Capacity
(MW)
616 500 300 2000 500 170 500
Tariff
(Rs.per unit)
6.7 6.8 5.32 5.79 5.6 5.76 4.63
Gas has been discovered in GK-22C and
GK-39 structures and oil/gas has been
discovered in GK-28 structure. Recently,
two gas discoveries have also been made in
NELP–VIII blocks – GK-OSN-2009/1 and
GK-OSN-2009/2. They are still at the
appraisal stage, but the combined resource
base could be about 15 billion cubic metre
of gas through the life of the fields.
The biggest exploratory challenge in the
Basin is seismic imaging below Deccan
Traps, as it tends to degrade the seismic
signals. Though ONGC has used
appropriate technologies touted to address
this particular issue, the results were not
satisfactory.
Nandini Chemical Journal, November 2015 Page 53
ENVIRONMENTAL PAGE
Four key climate pollutants banned by WHO
Clamping down on four key climate pollutants black carbon, ozone, methane, carbon dioxide -- can
help save an average of 2.4 million premature deaths annually by 2030, says a new report by World
Health Organisation (WHO).
These four short lived climate pollutants (SLCPs) not only produce strong global warming effect,
but also impact food security and nutrition, says the report.
“Ozone and black carbon in the atmosphere can both negatively influence plant growth and
agricultural productivity,” it says, citing a study that found that the combined effects of climate and
air pollution reduced India’s wheat yield by as much as 36 per cent in 2010, with the majority of the
reductions attributable to the direct effects of SLCPs .
The report noted that in countries such as India, Nepal and Nigeria, where recent economic growth
and demand for electricity have not been matched by power supply, stand alone diesel generators
are growing source of black carbon emissions, especially in areas that are off grid or have unreliable
access to grid electricity.
The large number of kilns are another source of air pollution in India and China -- the two top
producers of bricks. “India alone has an estimated 100,000 kilns that employ around 10 million
people,” says the report, adding that bricks are often fired in traditional kilns that release high level
of heath relevant pollutants, as the fuel used is either wood or coal.
Vehicular pollution is another top pollutant that damages the ozone, with diesel vehicles generally
emitting more per km travelled than comparable gasoline vehicles, says the report, seeking a shift to
cleaner transport modes.
Validity for environmental clearance extended
The Government of India has extended the validity of environment clearance ( EC) from five years
to seven years. It have notified the extension of the validity of EC from five years to seven years.
The EC can be renewed for a maximum period of three years.
For extension of EC, an application should be filed before the regulatory authority within the validity
period. The regulatory authority may also consult the Expert Appraisal Committee ( EAC) or State
Level Expert Appraisal Committee ( SEAC), as the case may be, for grant of such extension.
*****
PUBLICATION
ON
ALL INDIA DIRECTORY OF CHEMICAL EQUIPMENT MANUFACTURERS
UPDATED PUBLICATIONS ARE AVAILABLE IN CD
CONTACT:
NANDINI CONSULTANCY CENTRE,CHENNAI-90
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Nandini Chemical Journal, November 2015 Page 54
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne)
ABS 275 Sinopec Shanghai Gaoqiao 10100
ABS 275 Huajin Chemical 10100
ABS 920 Toray of Japan 19400
ABS 8391 KUMHO OF KOREA 10500
ABS 8434 Sinopec Shanghai Gaoqiao 12000
ABS 0215A PetroChina Jilin Petrochem 10400
ABS 121H-0013 LG Yongxing 12400
ABS 650M Chimei of Taiwan 26000
ABS 650SK Kumho Toray 26000
ABS 750A PetroChina Daqing Petrochem 10600
ABS 750SW Kumho Toray 10500
ABS AG15A1 Formosa Chemicals & Fiber 11200
ABS AG15A1 Formosa Chemicals (Ningbo) 11200
ABS AG15E1 Formosa Chemicals (Ningbo) 10600
ABS CF-610B Changzhou Plastics Group 16800
ABS CH-777D Changzhou Plastics Group 18800
ABS D-120 Chimei Zhenjiang 11200
ABS D-180 Chimei (Zhenjiang) 10800
ABS DG-417 Tianjin Dagu Chemical 10000
ABS FR-500 LG Yongxing 17800
ABS GE-150 PetroChina Jilin Petrochem 10200
ABS GP-22 BASF Korea 11600
ABS H-2938SK Kumho Toray 26000
ABS H816 PetroChina Jilin Petrochem 10200
ABS HI-121 LG Chem 11800
ABS Hi-121H Ningbo LG Yongxing 11000
ABS HI-130 Ningbo LG Yongxing 12800
ABS HI-140 Ningbo LG Yongxing 12800
ABS HP100 CNOOC LOTTE 13500
ABS HP171 CNOOC LOTTE 10600
ABS HP181 CNOOC LOTTE 10600
ABS PA-707K Chimei (Zhengiang) 10700
ABS PA-709 Chimei of Taiwan 13700
ABS PA-727 Chimei of Taiwan 13500
ABS PA-746H Chimei of Taiwan 13500
ABS PA-747S white Chimei of Taiwan 13500
ABS PA-747S Ti white Chimei of Taiwan 15000
ABS PA-756S Chimei of Taiwan 13500
ABS PA-757 Chimei of Taiwan 11500
ABS PA-757K Chimei (Zhenjiang) 10900
ABS PA-758 Chimei of Taiwan 17000
ABS PA-765A Chimei of Taiwan 22200
ABS PA-765B Chimei of Taiwan 21800
ABS PA-777B Chimei of Taiwan 18000
ABS PA-777D Chimei of Taiwan 21000
ABS PA-777E Chimei of Taiwan 22200
ABS SM050 Guangzhou Watson 16600
ABS TE-10 NEC 23500
ABS TI-500A Dainippon Ink & Chem 18800
ABS TR-557 LG Chem 16000
ABS TR-558AI LG Chem 16000
ABS XR-401 LG Chem 17500
Nandini Chemical Journal, November 2015 Page 55
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) ABS XR-404 LG Chem 18500
AES HW600G Kumho Toray 33000
AS 783 Asahi Chemical of Japan 20000
AS 368R BASF 20000
AS 80HF LG Chem 12800
AS 80HF Ningbo LG Yongxing 10400
AS 80HF-ICE Ningbo LG Yongxing 10400
AS 82TR LG Chem 12800
AS BHF PetroChina Lanzhou Petrochem 9600
AS D-168 Chimei Zhenjiang 10400
AS D-178 Chimei Zhenjiang 11700
AS D-178L200 Chimei Zhenjiang 11700
AS NF2200 Formosa Chemicals (Ningbo) 9600
AS NF2200AE Formosa Chemicals (Ningbo) 9600
AS PN-117C Chimei of Taiwan 11300
AS PN-117L200 Chimei of Taiwan 11300
AS PN-118L100 Chimei of Taiwan 9800
AS PN-118L150 Chimei of Taiwan 9800
AS PN-127H Chimei of Taiwan 11300
AS PN-127L200 Chimei of Taiwan 11300
AS PN-138H Chimei of Zhenjiang 10100
EVA 18-3 Beijing Organic Plant 12300
EVA 14-2 Beijing Organic Plant 12500
EVA E180F Samsung 12250
EVA V5110J BASF-YPC Ltd 11600
EVA VA800 LOTTE CHEM 14000
EVA VA900 LOTTE CHEM 14000
GPPS 123 Shanghai Secco Petrochem 9250
GPPS 158K BASF-YPC Ltd 9800
GPPS 666H Dow Chemical 10500
GPPS GP-525 Jiangsu SBL Petrochemical 8700
GPPS GP5250 Formosa Chemicals (Ningbo) 9400
GPPS GP-535N Formosa Chemicals (Ningbo) 9200
GPPS GPPS500 PetroChina Dushanzi Petrochem 9200
GPPS GPS-525 Jiangsu Laidun Group 8800
GPPS LV-T6 Lvan Qingfeng 9000
GPPS PG-33 Chimei (Zhenjiang) 9800
GPPS PG-383M Chimei (Zhenjiang) 9700
GPPS SKG-118 SK Polystyrene (Shantou) 9800
HDPE 2911 PetroChina Fushan Petrochem 10800
HDPE 5502 Daelim of Korea 10600
HDPE 9001 Formosa Plastics 10300
HDPE 5000S Sinopec Yangzi Petrochem 10500
HDPE 5000S Sinopec Yangzi Petrochem 10400
HDPE 5000S PetroChina Lanzhou Petrochem 10200
HDPE 5306J Sinopec Yangzi Petrochem 11000
HDPE BE0400 LG Chem 12850
HDPE DGDA6098 Sinopec Qilu Petrochem 10900
HDPE DMDA-8008 PetroChina Dushanzi Petrochem 10300
HDPE DMDA-8920 PetroChina Dushanzi Petrochem 10400
HDPE F600 Korea Petrochemical 12500
HDPE FHC7260 PetroChina Fushan Petrochem 10100
HDPE HB5502B Formosa Plastics (USA) 10300
Nandini Chemical Journal, November 2015 Page 56
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) HDPE HD5301AA Shanghai Secco Petrochem 10150
HDPE HD5502FA Shanghai Secco Petrochem 10000
HDPE HD5502GA PetroChina Dushanzi Petrochem 10400
HDPE HHM5502 Shanghai Golden Phillips 10250
HDPE HHMTR210 Shanghai Golden Phillips 12600
HDPE HHMTR480AT Shanghai Golden Phillips 10700
HDPE JHM9455F PetroChina Jilin Petrochem 9700
HDPE M80064 Saudi Arabia 11000
HDPE MH602 Sinopec Shanghai Petrochem 11300
HIPS 688 Jiangsu Laidun Group 12000
HIPS 825 Panjin Ethylene Industry 9900
HIPS HIPS-622 Shanghai Secco Petrochem 9500
HIPS HP825 Jiangsu SBL Petrochemical 10000
HIPS HP8250 Formosa Chemicals (Ningbo) 9500
HIPS HS-43 Shantou Hualin Plastic Chem 11100
HIPS PH-88 Chimei (Zhenjiang) 9800
HIPS PH-888G Chimei (Zhenjiang) 10000
HIPS PH-88SF Chimei (Zhenjiang) 10500
HIPS SKH-127 SK Polystyrene (Shantou) 9700
K resins KR03 Daleim of Korea 19600
K resins KR03 Philips 15600
K resins PB-5903 Chimei of Taiwan 17500
K resins SL-803 Maoming Zhonghe Plastics 14300
LDPE 112A-1 Sinopec Yanshan Petrochem 12500
LDPE 18D PetroChina Daqing Petrochem 10500
LDPE 1C7A Sinopec Yanshan Petrochem 11800
LDPE 2102TN26 Sinopec Qilu Petrochem 10450
LDPE 2426H BASF-YPC Ltd 10600
LDPE 2426H PetroChina Daqing Petrochem 10400
LDPE 2426H PetroChina Lanzhou Petrochem 10400
LDPE 2426K PetroChina Daqing Petrochem 10400
LDPE 868-000 Sinopec Maoming Petrochem 11800
LDPE FD0274 Qatar petrochemical 10500
LDPE LD100AC Sinopec Yanshan Petrochem 10600
LDPE N210 Sinopec Shanghai Petrochem 10200
LDPE N220 Sinopec Shanghai Petrochem 10500
LDPE Q210 Sinopec Shanghai Petrochem 10350
LDPE Q281 Sinopec Shanghai Petrochem 10300
LLDPE 3224 Formosa Plastics 11000
LLDPE 218W Saudi Arabia 10300
LLDPE DFDA-7042 Sinopec Yangzi Petrochem 9600
LLDPE DFDA-7042 PetroChina Dushanzi Petrochem 9400
LLDPE DFDA-7042 Sinopec Zhenhai Refining & Chem 9400
LLDPE DFDA-7042 PetroChina Daqing Petrochem 9300
LLDPE DFDA-7042 PetroChina Jilin Petrochem 9300
LLDPE DFDA-7042N PetroChina Lanzhou Petrochem 9300
LLDPE DFDC-7050 Sinopec Zhenhai Refining & Chem 9350
LLDPE LL0220KJ Shanghai Secco Petrochem 9450
LLDPE YLF-1802 Sinopec Yangzi Petrochem 9800
MBS S050 Guangzhou Watson 15900
MBS TH-21 NEC Chemistry 17200
MBS TP-801 NEC Chemistry 17400
Nandini Chemical Journal, November 2015 Page 57
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne)
PA1010 11 Shanghai Celluloid 73000
PA1010 12-Sep Shanghai Celluloid 75000
PA6 1030 Japan DSM 27000
PA6 1010C2 Japan DSM 26000
PA6 1013B Ube of Japan 20000
PA6 1013B Shijiahzuang zhuangyuan 212800
PA6 1013NW8 Ube of Japan 21000
PA6 1030B Japan DSM 26500
PA6 2500I Xinhui Meida Nylon 17500
PA6 B30S Lanexess 28000
PA6 B35EG3 BASF 34500
PA6 B3EG6 BASF 30000
PA6 B3S BASF 27000
PA6 B3WG6 BASF 31000
PA6 CM1017 Toray 32000
PA6 M2500I Xinhui Meida Nylon 17500
PA6 M2800 Xinhui Meida Nylon 16500
PA6 SG-301 Shanghai Celluloid 23000
PA6 YH3200 Baling Chem & Fiber 15800
PA6 YH800 Baling Chem & Fiber 13400
PA66 101F DuPont 27500
PA66 101L DuPont 26000
PA66 103FHS DuPont 34000
PA66 103HSL DuPont 34000
PA66 1300G Asahi Kasei 31800
PA66 1300S Asahi Kasei 26500
PA66 408HS DuPont 45500
PA66 70G13L DuPont 35000
PA66 70G33HS1-L DuPont 35000
PA66 70G33L DuPont 29000
PA66 70G43L DuPont 36500
PA66 74G33J DuPont 37000
PA66 80G33HS1-L DuPont 56000
PA66 A205F Rhodia Shanghai 33000
PA66 A3EG6 BASF 35000
PA66 A3HG5 BASF 43500
PA66 A3K BASF 37800
PA66 A3WG6 BASF 35000
PA66 A3X2G5 BASF 54000
PA66 A45 Radici 26500
PA66 CM3004-V0 Toray 43000
PA66 EPR27 Pingdingshan Shenma Ltd 17100
PA66 EPR27L Pingdingshan Shenma Ltd 17100
PA66 FR50 DuPont 46500
PA66 ST801 DuPont 55000
PBT 3300 SABIC 26000
PBT 310SEO-1001 SABIC 33000
PBT 420SEO Japan's Polyplastics 27500
PBT 420SEO-1001 SABIC 28000
PBT 420SEO-BK1066 SABIC 28500
PBT B4500 SABIC 20500
PBT DR48 BASF 31500
PBT G0 SABIC 27500
PBT G10 Jiangsu Sanfangxiang 27500
PBT G20 Jiangsu Sanfangxiang 24000
PBT G30 Jiangsu Sanfangxiang 23500
PBT SK605 DuPont 35000
Nandini Chemical Journal, November 2015 Page 58
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) PC 2405 Bayer 21000
PC 2805 Bayer 21400
PC 2865 Bayer 22600
PC 1201-10 LG-Chem 19200
PC 1201-15 LG-Chem 19200
PC 121R SABIC 22500
PC 1303-15 LG Chem 20000
PC 131R-111 SABIC 31000
PC 141R-111 SABIC 21000
PC 143R SABIC 21000
PC 144R SABIC 25000
PC 201-10 Dow Chemical 21000
PC 201-15 Dow Chemical 20000
PC 201-22 Dow Chemical 21500
PC 241R SABIC 22000
PC 303-15 Dow Chemical 20500
PC 3412-739 SABIC 29500
PC 7022IR Mitsubishi Japan 18800
PC 940A-116 SABIC 29000
PC IR2200 Japan's Idemitsu 20500
PC IR2200 Formosa Idemitsu 17200
PC K-1300 Japan Teijin 31200
PC L-1225L Teijin (Jiaxing) 18600
PC L-1225Y Teijin (Jiaxing) 18000
PC L-1250Y Teijin (Jiaxing) 18500
PC PC-010 Russia Kazan 16800
PC PC-110 Chimei of Taiwan 17700
PC PC-1100 LOTTE CHEM 16300
PC PC-1150 LOTTE CHEM 16700
PC S2000UR Mitsubishi Shanghai 17300
PC S3000UR Mitsubishi Shanghai 17300
PC S3001R Mitsubishi Shanghai 17300
PC/ABS C1200HF SABIC 29500
PC/ABS HAC8245 Kumho Toray 30000
PC/ABS HAC8250 Kumho Toray 32000
PET 530 DuPont 34000
PET 80-K Liaoyang Petrochemical 11000
PET CB-608S Far Eastern Industry (Shanghai) Ltd 8000
PET FR530 DuPont 34000
PET SE-3030 Suzhou Chenguang Chemical 25800
PET SE-5030 Suzhou Chenguang Chemical 28500
PF 431 Shanghai Doubletree 10600
PF 631 Shanghai Doubletree 10600
PF D131 Jiaxing Minzheng Petrochemical 7200
PF D141 Jiaxing Minzheng Petrochemical 7600
PF H161 Jiaxing Minzheng Petrochemical 9000
PMMA 80N Asahi Kasei 21000
PMMA 8N Evonik 22000
PMMA CM205 Chimei of Taiwan 17200
PMMA CM-205 Chimei of Zhenjiang 14900
PMMA CM207 Chimei of Taiwan 19000
PMMA CM-207 Chimei of Zhenjiang 14900
PMMA CM211 Chimei of Taiwan 18200
PMMA CM-211 Chimei Zhenjiang 14900
PMMA IF850 LG Chemical 15800
Nandini Chemical Journal, November 2015 Page 59
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) PMMA LG2 Sumitomo Naugatuck Ltd 16500
PMMA MF001 Rayon Nantong 16300
PMMA MH Sumitomo Naugatuck Ltd 16500
PMMA VH001 Rayon Nantong 16500
POM 100 DuPont 35000
POM 4520 DuPont -Asahi Kasei 12000
POM 100P DuPont 29500
POM 100ST DuPont 55000
POM 500CL DuPont 76000
POM 500P DuPont 23000
POM 500T DuPont 40000
POM BS090 Bluestar Shanghai 9600
POM F20-02 Korea Engineering Plastics 11300
POM F20-02 PTM Nantong 11200
POM F20-03 Korea Engineering Plastics 11300
POM F20-03 Mitsubishi Thailand 11300
POM F20-03 PTM Nantong 11200
POM FM090 Formosa Plastics 12600
POM K300 South Korea Kolon 10700
POM M270 Yuntianhua 10200
POM M270-44 Japan's Polyplastics 15000
POM M90 Yuntianhua 9800
POM M90-04 PTM Nantong 14400
POM M90-44 Japan's Polyplastics 16500
POM M90-44 PTM Nantong 14300
POM MC90 Shenhua Ningmei 9200
POM NW-02 Japan's Polyplastics 40000
PP 45 Ningbo Yongxing Chemical 8300
PP 75 Ningbo Yongxing Chemical 8300
PP 1080 Formosa Plastics (Ningbo) 8450
PP 1120 Formosa Plastics (Ningbo) 8600
PP 3015 Taiwan YUNGSOX 10000
PP 3015 Formosa Plastics (Ningbo) 8850
PP 3080 Taiwan YUNGSOX 11000
PP 3080 Formosa Plastics (Ningbo) 8900
PP 3204 Formosa Plastics (Ningbo) 9000
PP 7.03E+06 ExxonMobil 9600
PP 1040F Formosa Plastics (Ningbo) 9150
PP 1100N APC of Saudi Arabia 10000
PP 1100N Shenhua Ningmei 8150
PP 1102K Shenhua Ningmei 8100
PP 500P SABIC 11500
PP 5090T Formosa Plastics (Ningbo) 9150
PP 5200XT Formosa Plastics (Ningbo) 10200
PP 570P SABIC 11200
PP A180TM Dushanzi Tianli 9200
PP AP03B ExxonMobil 9300
PP AY564 Singapore 10900
PP B380G SK of Korea 11450
PP BH Gansu Langang Petrochem 8500
PP BJ750 Samsung Total 11200
PP BL Gansu Langang Petrochem 8500
PP EP300R Daelim of Korea 9900
PP EPC30R Sinopec Zhenhai Refining & Chem 8900
PP EPS30R PetroChina Dushanzi Petrochem 8800
Nandini Chemical Journal, November 2015 Page 60
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) PP EPS30R Sinopec Zhenhai Refining & Chem 8750
PP F3-045 Sinopec Zhenhai Refining & Chem 8600
PP F401 Liaoning Huajin Tongda Chemicals 10500
PP F401 Sinopec Yangzi Petrochem 9050
PP H030SG Reliance Industry Limited of India 8400
PP H110MA Reliance Industry Limited of India 9200
PP H1500 Hyundai Petrochem of Korea 10600
PP H4540 Hyundai Petrochem of Korea 10850
PP H5300 Hyundai Petrochem of Korea 11400
PP HJ730 Korea Samsung Total 11300
PP HP602N Daelim of Korea 12900
PP J340 Hyosung of Korea 12100
PP JM-370K LOTTE CHEM 10100
PP K4912 Shanghai Secco Petrochem 9300
PP K4912 Sinopec Yanshan Petrochem 9250
PP K7726 Sinopec Yanshan Petrochem 10300
PP K7726H Sinopec Yanshan Petrochem 10200
PP K7926 Shanghai Secco Petrochem 9400
PP K8003 PetroChina Dushanzi Petrochem 9250
PP K8003 Shanghai Secco Petrochem 9050
PP K8009 Formosa Chemicals & Fiber 11500
PP K8303 Sinopec Yanshan Petrochem 10400
PP K9928 PetroChina Dushanzi Petrochem 10300
PP M1600 Hyundai Petrochem of Korea 9900
PP M1600E Sinopec Shanghai Petrochem 9600
PP M180R Sinopec Shanghai Petrochem 8900
PP M2600R Sinopec Shanghai Petrochem 9100
PP M700R Sinopec Shanghai Petrochem 9100
PP M800E Sinopec Shanghai Petrochem 9400
PP M800EX Sinopec Shanghai Petrochem 9600
PP PPB-M02 Sinopec Yangzi Petrochem 8950
PP PPB-M02-V Sinopec Yangzi Petrochem 8950
PP R370Y Sinopec Zhenhai Refining & Chem 10450
PP RP344R Sinopec Zhenhai Refining & Chem 11500
PP S1003 Shanghai Secco Petrochem 8400
PP S1003 PetrcoChian Dushanzi petrochem 8400
PP S2040 Shanghai Secco Petrochem 8550
PP S700 Sinopec Yangzi Petrochem 8900
PP T300 Sinopec Shanghai Petrochem 8500
PP T30S Huajin Chemical 8600
PP T30S PetroChina Dalian Petrochem 8250
PP T30S Shaoxing Sanyuan Petrochemical 8200
PP T30S PetroChina Daqing Petrochem 8200
PP T30S Ningbo Heyuan 8200
PP T30S Sinopec Zhenhai Refining & Chem 8150
PP V30G Sinopec Zhenhai Refining & Chem 8400
PP Y2600 Sinopec Shanghai Petrochem 9000
PPO PX9406-701 Shenhua Ningmei 34500
PPO SE1GFN2-701 SABIC 40000
PPO SE1GFN2-780 SABIC 38000
PPO SE1X SABIC 33500
PP-R 4228 PetroChina Daqing Petrochem 10800
PP-R B8101 Sinopec Yanshan Petrochem 11000
PP-R C4220 Sinopec Yanshan Petrochem 11700
PP-R PA14D-1 PetroChina Daqing Petrochem 10800
Nandini Chemical Journal, November 2015 Page 61
SPOT PRICE OF POLYMERS IN CHINA – PERIOD OCTOBER,2015
Product
Specification
Producer
Price
(RMB per metric tonne) PP-R R200P Hyosung of Korea 11200
PP-R RP2400 Korea Petrochem 11800
PPS 6165A6 Japan's Polyplastics 65000
PPS R-4 Philips 80000
PPS R-7-02 Philips 55000
PVC EB101 Shanghai Chlor-alkali 11200
PVC LS-100 Tianjin LOTTE 5850
PVC R-05B Shanghai Chlor-alkali 12400
PVC S-02 Shanghai Chlor-alkali 10000
PVC S-101 Shanghai Zhongyuan 11400
PVC S-700 Sinopec Qilu Petrochem 5850
PVC SG5 Xinjiang Zhongtai 5600
PVC SG5 Inner Mongolia Yili 5600
PVC SG-5 Shanxi Yushe Chemical 5700
PVC SLK-1000 Tianjin Dagu Chemical 5800
TPU 385 Bayer 41000
TPU 1085A Taiwan's Great Eastern Resin 37000
TPU EX-80A Taiwan Coating Chemical 33500
TPU EX-90A Taiwan Coating Chemical 33500
TPU EX-95A Taiwan Coating Chemical 33500
TPU EX-98A Taiwan Coating Chemical 34000
TPU NX-80A Taiwan Coating Chemical 33500
TPU NX-85A Taiwan Coating Chemical 31000
TPU NX-90A Taiwan Coating Chemical 32000
TPU NX-95A Taiwan Coating Chemical 31500
TPU NX-98A Taiwan Coating Chemical 31500
ALL INDIA SOLAR AND WIND POWER DIRECTORIES
PUBLICATION AVAILABLE IN CD & HARD COPY PRICE
Particular Price per copy
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Total price
per copy including service
tax
All India solar power directory
Rs.1,500/-
(Rupees one thousand
five hundred only)
Rs.210/-
(Rupees two hundred and
ten only)
Rs.1,710/-
(Rupees one thousand
seven hundred and ten
only)
All India wind power
directory
Rs.1,500/-
(Rupees one thousand
five hundred only)
Rs.210/-
(Rupees two hundred and
ten only)
Rs.1,710/-
(Rupees one thousand
seven hundred and ten
only)
In case the above directories are required in the form of hard copy, additional payment of Rs.600/-
(Rupees six hundred only) has to be made for both the directories in single book.
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Nandini Chemical Journal, November 2015 Page 62
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Dear Friend, NANDINI CHEMICAL JOURNAL has been under publication for over fifteen years now. Month after month,the journal has been providing excellent articles and data, which are cherished by chemical industries all over the country. Since October 2008, Nandini Chemical Journal is published only online (electronic version). Several organisations look for Nandini Chemical Journal for fresh ideas on investment opportunities and R & D Projects. It is absolutely essential that every one involved in chemical industries should be a subscriber for Nandini Chemical Journal, in his own interest. The interesting aspect is that instead of advertisement, NANDINI CHEMICAL JOURNAL fills its pages with data and articles, that are highly relevant and appropriate to the time. If you are not yet a subscriber to NANDINI CHEMICAL JOURNAL, you are certainly denying yourself of very valuable inputs and information, that would help you significantly in promoting your career and business interests. Careful study of NANDINI CHEMICAL JOURNAL is necessary to keep yourself adequately informed in the competitive environment. Subscribe for NANDINI CHEMICAL JOURNAL and forge ahead.
N.S. VENKATARAMAN, Chief Editor
Nandini Chemical Journal, November 2015 Page 63
TENDER
S.
No.
Name Of The Company
Product Name
Quantity
Tender No.& Date
1 Tamil Nadu Newsprint And Papers
Ltd
Kagithapuram-639 136
Karur District,Tamil Nadu
Filler grade PCC
(in jumbo bags) 1500
tonne
15161300
4388
2 The Mysore Paper Mills Ltd
Materials Division
Paper Town,
Bhadravati-577 302,Karnataka
Double refined roll sulphur or
pit sulphur
50 tonne 0878-15/FMT/PLR
(E-tender No.
MPML/2015-16 /IND494)
3 Hindustan Paper Corporation Ltd
75-C, Park Street, Kolkata-700 016
Oxidised starch 1400
tonne
ENQ/NC-15/000/
15-16/20 Dt.1.10.2015
4 Rashtriya Chemicals And Fertilizers
Ltd
Thal Unit, Thal, TAL-Alibag,
Dist.Raigad,Maharashtra
Pin:402208
Potassium carbonate 100 tonne E-tender
No.Thal/Pur/AU/49144
5 Karnataka Soaps & Detergents Ltd.
Sandal City, P.B.No.5531,
Bangalore-Pune Highway,
Bengaluru-560 055
Sodium tripolyphosphate 30 tonne
6 Ordnance Factory,
Tiruchirapalli,Tamil nadu
Pin-620 016
A Unit of Ordnance Factory Board,
Indian Ordnance Factories,
Ministry of Defence
White aluminium oxide 60
mesh for abrasive blasting 99%
pure (fused alumina) grit size
60 mesh
9000 kgs 128MMETT15000477
7 Karnataka Soaps & Detergents Ltd
Sandal City,
P.B.No.5531,
Bangalore-Pune Highway,
Bengaluru-560 055
http://eproc.karnataka.gov.in
DFA creamish soap noodles
75:25
Caustic soda lye (100% basis)
100 tonne
800 tonne
8 The Mysore Sugar Company Ltd
Sugar Town Post
Mandya - 571 402,Karnataka
www.eproc.karnataka.gov.in
Orthophosphoric acid
20 tonne Ref.MM/16/2015-16
9
Rashtriya Chemicals And Fertilisers
Ltd
Thal Unit,
Tal.-Alibag,
Dist.-Raigad,
Maharashtra-Pin 402208
Secondary catalyst for
Trombay unit Ammonia-I plant
LT shift converter catalyst for
Trombay unit Ammonia – 1
plant
Procurement of ammonia
lumps for ammonia plant at
RCF Thal
13.3 M3
26.25 M3
TH/AN/SR
TH/AN/LT
TH/PUR/AN/49532
10 Rashtriya Chemicals And Fertilisers
Ltd
Thal Unit, Tal.-Alibag, Dist.-Raigad,
Maharashtra-Pin 402208
Multi filament yarn 30000 kg E-Tender
No.THAL/PUR/AD/49460
Nandini Chemical Journal, November 2015 Page 64
CHEMICALS IMPORTED AT THE CHENNAI PORT
DURING THE MONTH OF AUGUST 2015
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CATEGORY: ORGANIC CHEMICALS
(-)-Diisopinocampheylchloroborane In Heptanes 60-65% Solution 155 Kgs 551917.03 USA
(Iodo) -Trimethylsilane (Tmsi) 3010 Kgs 5612267.8 China
(R)-9-(2-Phosphonomethoxypropyl)Adenine 4174.3 Kgs 29727319 China
(R)-9-(2-Phosphonomethoxypropyl)Adenine 2825.7 Kgs 20123251 China
(S)-(+)-2-(Chloromethyl) Oxirane 4140 Kgs 2023609.4 China
(S)-2 -Aminobutanamide Hydrochloride 2000 Kgs 2783863 China
(S)-2-Amino Butyramide-Hcl 4000 Kgs 5373503 China
(S)-2-Amino Butyramide-Hcl 4000 Kgs 5373503 China
1-(2,4-Dichlorophenyl)-2-(1h-Imidazol-1-Yl)-1-Ethanol 1450 Kgs 2537459.8 China
1,1 Cyclohexane Diacetic Acid Monoamide 2500 Kgs 1456672.5 China
1,1-Cyclohexanediacetic Acid Mono Amide 15000 Kgs 8691479.3 China
1,1-Cyclohexanediacetic Acid Mono Amide 15000 Kgs 8837146.5 China
1,1-Cyclohexanediacetic Acid Mono Amide 15000 Kgs 8837146.5 China
1,2 Dibromoethane (Ethylene Dibromide) 18000 Kgs 4673005.4 Israel
1,2 Dibromoethane (Ethylene Dibromide) 18000 Kgs 4673005.4 Israel
1,2-Dimethoxy Ethane 14400 Kgs 2843424.7 China
1,2-Dimethoxy Ethane 14400 Kgs 2843424.7 China
1,2-Dimethoxy Ethane 360 Kgs 81573.66 China
1,3 Difluoro Benzene 4000 Kgs 6344618 China
1,3-Difluoro Benzene 3000 Kgs 4661352 China
1,3-Difluoro Benzene 2000 Kgs 3172309 China
1,3-Difluoro Benzene 3000 Kgs 4758463.5 China
1,3-Difluorobenzene 3000 Kgs 4758463.5 China
1,3-Dioxolane 17200 Kgs 2138710.4 Belgium
1,4 Butanediol 16000 Kgs 1657369.6 Malaysia
1,4 Butanediol 16000 Kgs 1657369.6 Malaysia
1,7,7-Trimethylbicyclo¿1,2,2!Heptan-2-Ol 50 Kgs 34150.88 Switzerland
1-Bromo-3-Chloropropane 20000 Kgs 4402388 China
1-Chloro-6,6-Dimethyl-2-Heptene-4-Yne 1000 Kgs 4920316 China
1-Fluoro Naphthalene 50 Kgs 77689.2 China
1-Propoxy-2-Chloro Ethane 99 Pct Min- 6000 Kgs 1437250.2 China
2,2,2 Trifluoroethanol 4000 Kgs 1968126.4 China
2,2-Dimethoxypropane 6800 Kgs 1496811.9 China
2,2-Dithiosalicylc Acid 11000 Kgs 6017676 China
2,4-Dichloro-5-Fluoro Acetophenone 18000 Kgs 10982269 China
2,4-Dimethyl-2-(1,1,4,4,-Tetramethyltetralin-6-Yl)-1,3-Dioxolane 100 Kgs 779222.68 Switzerland
2,5-Dihydroxy-1,4-Dithiane 10000 Kgs 5956172 China
2,6,10-Trimethyl-9-Undecena) 50 Kgs 279713.49 Switzerland
2,6-Dichloroaniline 200 Kgs 369023.7 China
2,6-Diethyl Aniline 99 Pct Min 16000 Kgs 2496413 China
2,6-Dimethyl Phenol 5000 Kgs 1381111.9 China
2-Acetyl Butyrolactone 99%Min 2000 Kgs 712151 China
2-Acetyl Pyridine 1500 Kgs 3884460 China
2-Azabicyclo[2.2.1]Hept-5-En-3-One 4000 Kgs 7665334.4 China
2-Butyl-4-Chloro-5-Formyl Imidazole 3000 Kgs 4583662.8 China
2-Butyl-4-Chloro-5-Formyl Imidazole 6000 Kgs 8817724.2 China
2-Butyl-4-Chloro-5-Formyl Imidazole 1200 Kgs 1759874.5 China
2-Chloro Nicotinic Acid 7250 Kgs 10323009 China
2-Chloro-5-Chloromethyl-1,3-Thiazole 7000 Kgs 2968374.9 China
2-Ethylhexyl Chloroformate 3800 Kgs 676543.45 Korea
2-Ethylhexyl Chloroformate 11400 Kgs 2029630.4 Korea
2-Hydroxyphenyl- Acetic Acid 1000 Kgs 589143.1 China
2-Hydroxyphenyl- Acetic Acid 15000 Kgs 8837146.5 China
Nandini Chemical Journal, November 2015 Page 65
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
2-Hydroxyphenyl- Acetic Acid 16000 Kgs 9426289.6 China
2-Methylundecanal(Aromatic Chemical) 2720 Kgs 2348636.2 Germany
2-Methylundecanal(Aromatic Chemical) 160 Kgs 138155.07 Germany
2-N-Propyl-4-Methyl-6-(1-Methyl Benzimidazole-2-Yl)Benzimidazole 1500 Kgs 5632467 China
2-N-Propyl-4-Methyl-6-(1-Methylbenzimidazole-2-Yl)Benzimidazole 1500 Kgs 5632467 China
2-Phenyl Ethyl Bromide 1000 Kgs 440238.8 China
3.5 Lutidine 14400 Kgs 3915535.7 China
3.5 Xylenol-(Mx)-99% Purity (Anti Mold Agent) 16000 Kgs 4604266.8 Germany
3.5 Xylenol-(Mx)-99% Purity (Anti Mold Agent) 16000 Kgs 4604266.8 Germany
3a,7a-Dihydroxy,5b-Cholan,,24-Oic Acid (Technical Grade) 5269 Kgs 27378318 Italy
3a,7a-Dihydroxy,5b-Cholan,,24-Oic Acid (Technical Grade) 5500 Kgs 29910342 Italy
3-Chloro-2-Hydroxypropyl Trimethyl Ammonium Chloride 1000 Kgs 96464.09 China
3-Chloro-2-Hydroxypropyltrimethyl Ammonium Chloride 8.12 Mts 835858.1 Korea
3-Chloro-2-Hydroxypropyltrimethyl Ammonium Chloride 10.28 Mts 1058204.6 Korea
3-Fluorobenzotrifluoride 2200 Kgs 2791631.9 China
3-Methoxy Propiophenone 600 Kgs 1821811.7 China
3-Methyl Thiophene (Adc List Sl.No. 169) 1250 Kgs 1314073.1 China
3-Methyl-4-Nitroiminoperhydro-1,3,5 - Oxdiazine 98.5 Pct Min 7000 Kgs 1994022.8 China
4,4'-Diaminodiphenylmethane (Mda) 14000 Kgs 3482803.1 Taiwan
4,6-Dichloropyrimidine 9600 Kgs 10503580 China
4,6-Dichloropyrimidine 9600 Kgs 10503580 China
4'4-BIS(A,A-dimethyl benzyl)diphenylamine nonflex dcd 80 Kgs 54148.52 Japan
4-Hydroxy-3-Methoxy-Benzoic Acid 1050 Kgs 3330924.5 China
4-Methyl-2-Cyano Biphenyl 3000 Kgs 1621762.1 China
4-Methyl-2-Cyano Biphenyl 3000 Kgs 1621762.1 China
4-Phenoxy-2,6-Diisopropyl Phenyl Isothiocyanate 2000 Kgs 2006971 China
5-Chloro-2-Methyl-4-Isothiazoli 3 One 5600 Kgs 997011.4 China
5-Fluorocytosine 1500 Kgs 3787348.5 China
7-Amino Cephalosporanic Acid (7-Aca) 7610 Kgs 38921642 Germany
7-Amino Cephalosporanic Acid (7-Aca) 800 Kgs 4091631.2 Germany
7-Amino Cephalosporanic Acid (7-Aca) 546 Kgs 2792538.3 Germany
7-Amino Cephalosporanic Acid (7-Aca) 1044 Kgs 5339578.7 Germany
7-Aminocephalosporanic Acid (7-Aca) 7965 Kgs 40737303 Germany
7-Aminocephalosporanic Acid (7-Aca) 2035 Kgs 10408087 Germany
7-Ethyl Tryptophol ( Adc Sl No:207) 1000 Kgs 2834037.7 China
7-Methyl-3,4-Dihydro-2h-1,5-Benzo-Dioxepin-3-One 50 Kgs 1052915.3 Switzerland
8-Hydroxy Quinoline 10000 Kgs 7963143 China
8-Hydroxy Quinoline 5000 Kgs 3748503.9 China
8-Hydroxy Quinoline 10000 Kgs 8481071 China
9-Deoxo-9a-Aza-9a-Hemoerythromycin A 4450 Kgs 23281510 China
A-Black Acetylene Black 1000 Kgs 544471.81 Korea
Acetal R (Acetaldehyde Phenylethyl Propyl Acetal) 9.2 Kgs 101850.54 Switzerland
Acetonitrile 16960 Kgs 2141114.4 Korea
Acetyl Chloride 17600 Kgs 1035127.6 Germany
Acetyl Chloride 17600 Kgs 1035127.6 Germany
Acetyl Isoeugenol Crystals (2-Methoxy-4-(1-Propenyl)Phenylacetate 50 Kgs 216688.13 Switzerland
Acetyl Isoeugenol Crystals (2-Methoxy-4-(1-Propenyl)Phenylacetate 350 Kgs 1516816.9 Switzerland
Acetylene Black(Denka Black) 50% 10400 Kgs 1228784.2 Singapore
Acrylonitrile Butadiene Styrene 3265.3 Kgs 591916.6 Korea
Acrylonitrile Butadiene Styrene 5258.2 Kgs 953179.15 Korea
Acrylonitrile Butadiene Styrene 3880 Kgs 730977.68 Korea
Acrylonitrile Butadiene Styrene 5083.3 Kgs 957674.96 Korea
Acrylonitrile Butadiene Styrene 8036.7 Kgs 1514084.6 Korea
Acrylonitrile Butadiene Styrene 3 Mts 564606.26 Korea
Acrylonitrile Butadiene Styrene 2 Mts 376404.17 Korea
Acrylonitrile Butadiene Styrene 418 Kgs 77288.32 Korea
Acrylonitrile Butadiene Styrene 5582 Kgs 1032113.5 Korea
Nandini Chemical Journal, November 2015 Page 66
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Acrylonitrile Butadiene Styrene 10 Mts 1849014.9 Korea
Acrylonitrile Butadiene Styrene 3 Mts 336784.86 Korea
Acrylonitrile Butadiene Styrene 5 Mts 594326.22 Korea
Acrylonitrile Butadiene Styrene 3 Mts 356593.43 Korea
Acrylonitrile Butadiene Styrene 4 Mts 581115.22 Korea
Acrylonitrile Butadiene Styrene 19 Mts 2177239.8 Korea
Acrylonitrile Styrene Acrylate 11000 Kgs 1780377.5 Korea
Acrylonitrile-Butadiene-Styrene-Copolymers 4000 Kgs 666314.37 Korea
Adipic Acid 5000 Kgs 391035.64 China
Alcohol C 11 Undecylenic 1 Kgs 5545.71 Switzerland
Ald C-18 (Aromatic Chemical) 400 Kgs 249900.26 China
Aldehyde C 11 Undecylic ( Undecanal ) 480 Kgs 314228.11 Japan
Aldehyde C 11 Undecylic ( Undecanal ) 2720 Kgs 1780626 Japan
Aldehyde C 12 Mna Pure ( 2-Methylundecanal ) 1120 Kgs 1038093.5 Japan
Aldehyde C-14 (Adc List No 254) 1000 Kgs 745175.56 China
Aldehyde C16 Strawb 2 (Aromatic Chemical) 200 Kgs 117707.46 China
Aldehyde C-18 400 Kgs 227474.64 China
Alkenyl Succinic Anhydride 7600 Kgs 1492873.8 China
Alkenyl Succinic Anhydride- 7600 Kgs 1492873.8 China
Allyl Amyl Glycolate (2-Propenyl 2(3)-Methylbutoxyacetate 1440 Kgs 682708.17 China
Allyl Amyl Glycolate Bht 380 Kgs 327303.6 China
Allyl Caproate (Aroma Chemical) 720 Kgs 307649.23 China
Allyl Caproate (Aromatic Chemical) 360 Kgs 177763.64 China
Allyl Heptanoate (Aroma Chemical) 700 Kgs 278710.01 China
Allyl Heptoate 180 Kgs 83904.34 China
Almino Silicate 338 140 Kgs 20186.98 Japan
Alpha-(2,4-Dichlorophenyl)-1h-Imidazole-1-Ethanol 500 Kgs 922559.25 China
Amber Core 1-C(2-Tert-Butyl) Cyclohexyloxyl-2-Butanol) 180 Kgs 192503.61 Japan
Ambrettolide (Oxacycloheptadec-10-En-2-One 180 Kgs 2533095.2 Switzerland
Ambrofix Flakes 100 Kgs 2848733.5 Switzerland
Amyl Benzoate (Pentyl Benzoate & 2(3)-Methylbutyl Benzoate) 2 Kgs 21672.7 Switzerland
Amyl Phenyl Acetate 10 Kgs 17544.81 Switzerland
Amyl Salicylate 1720 Kgs 496641.16 Mexico
Amyl Salicylate 3440 Kgs 993282.32 Mexico
Amyl Salicylate 2365 Kgs 682881.59 Mexico
Amyl Salicylate 3870 Kgs 1117442.6 Mexico
Amyl Salicylate 2580 Kgs 744961.74 Mexico
Anther (3-Methylbutyl Phenylethyl Ether 50 Kgs 64870.48 Switzerland
Anther (3-Methylbutyl Phenylethyl Ether) 25 Kgs 32435.24 Switzerland
Antioxidant Nocrac 8c-N 240 Kgs 187630.93 Japan
Aromatic Isocyanate Ak-75 17600 Kgs 2335855.3 Korea
Aromatic Isocyanate Ak-75 17600 Kgs 2335855.3 Korea
Aspartame Usp 100 Mesh 9000 Kgs 6088891.1 China
Benzotrichloride (Min 99.2%) Distilled Grade 100000 Kgs 6603582 Belgium
Benzoyl Peroxide (75%)/Dibenzoyl Peroxide (75%) 14400 Kgs 2242110.3 China
Benzoyl Peroxide Bpo-75 13.5 Mts 2150048.6 China
Benzyl Benzoate Usp/Fcc (Aromatic Chemical) 430 Kgs 108046.01 USA
Bicyclo Nonalactone 50 Kgs 63867 Switzerland
Bifenthrin Technical 3763.07 Kgs 12690523 USA
Bifenthrin Technical 350.908 Kgs 1183398.6 USA
Bifenthrin Technical 221.357 Kgs 746502.13 USA
Bis(2-Ethylehexyl)Sebacate Dos 450 Kgs 137653.73 Japan
Bourgeonal (3-(4-Tertbutylpheny)-Propanal 195 Kgs 525557.73 Switzerland
Bromo Chloro Methane 6075 Kgs 2858565 China
Bromo Chloro Methane 325 Kgs 152927.35 China
Butadiene-Styrene Copolymer Jsr 0061 1100 Kgs 219957.39 Japan
Butene-Isobutene Polymer (Polyisobutylene) 800 Kgs 179714.2 Japan
Nandini Chemical Journal, November 2015 Page 67
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Butly Carbitol Formaldehyde Adduct 200 Kgs 37031.85 Korea
Butyl Acrylate 14400 Kgs 1305178.6 South africa
Butyl Acrylate 98490 Kgs 8544297.1 Singapore
Butyl Acrylate, 14400 Kgs 1342469.4 Korea
Butyl Acrylate-Ba-15 Ppm Mehq/Bulk 79600 Kgs 5565654.3 Saudi arabia
Butyl Acrylate-Ba-15 Ppm Mehq/Bulk 79490 Kgs 5557963.1 Saudi arabia
Butyl Butyryl Lactate 1000 Kgs 1136856 Germany
Butyl Cyclohexanone P.T.Recrys 25 Kgs 30979.73 China
Butyl Cyclohexanone P.T.Recrys 25 Kgs 30979.73 China
Butyl Hydroxy Toluene 1200 Kgs 318525.72 Russia
Butyl Hydroxy Toluene 1200 Kgs 318525.72 Russia
Butyltriglycol (Mixture Of Ethylene Glycol Monoalklyl Ethers) 2160 Kgs 286999.3 Germany
Calcium Gluconate - Oral Grade 17000 Kgs 1386752.2 China
Calcium Gluconate - Oral Grade 17000 Kgs 1386752.2 China
Calcium Gluconate - Oral Grade 24000 Kgs 2921113.9 China
Calcium Lignosulphonate 26000 Kgs 858465.66 China
Calcium Lignosulphonate 26000 Kgs 858465.66 China
Calcium Lignosulphonate 26000 Kgs 858465.66 China
Caprolactam 250 Mts 27401628 Russia
Caprylic/Capric Triglyceride(Palmester 3595) 15.2 Mts 4098623.2 Malaysia
Carnipure Tartarate [L-Carnitine] 1000 Kgs 1899500.9 China
Cartap Hydrochloride Technical 16000 Kgs 13258957 China
Caryophyllene Tech 220 Kgs 71499.96 Switzerland
Ca-St (Calcium Stearate) 140 Kgs 21798.29 Korea
Caustic Soda Flakes 40000 Kgs 1046360 China
Celstran Pp -Gf40-20 Ad3004 Black 10000 Kgs 2499002.6 China
Cepionate (Cyclopentaneacetic Acid, 3-Oxo-2-Pentyl,Methylester) 100 Kgs 139711.08 Switzerland
Chlorinated Paraffin (Cpw 70) 1500 Kgs 116533.8 China
Chlorinated Poly Vinyl Chloride 12000 Kgs 2306986.6 Belgium
Chlorinated Poly Vinyl Chloride 24000 Kgs 4613973.2 Belgium
Chlorinated Poly Vinyl Chloride 24000 Kgs 4613973.2 Belgium
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 16329.4 Kgs 3319899.1 USA
Chlorinated Poly Vinyl Chloride 18000 Kgs 3673818.3 Belgium
Chlorinated Poly Vinyl Chloride 18000 Kgs 3673818.3 Belgium
Chlorinated Poly Vinyl Chloride 18000 Kgs 3673818.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Nandini Chemical Journal, November 2015 Page 68
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
hlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2766413.8 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2764264.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Poly Vinyl Chloride 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chlorinated Polyvinyl Chloride ( CPVC ) 14000 Kgs 2755666.3 Belgium
Chloro Acetaldehyde Dimethyl Acetal 4200 Kgs 2991034.2 Germany
Chloro Acetonitrile 970 Kgs 756725.18 China
Chloro Acetonitrile 280 Kgs 218436.13 China
Chloro Methyl Isothiazolinone 10000 Kgs 1411353.8 China
Chlorosulfonyl Isocyanate 7425 Kgs 2403509.6 Switzerland
Cinnamic Alcohol 99% 10000 Kgs 4787597 China
Cinnamic Alcohol Synthetic 800 Kgs 424796.19 China
Cinnamyl Acetate (3-Phenyl-2-Propen-1-Yl Acetate) 25 Kgs 20814.23 Switzerland
Cis-3-Hexenol 1000 Kgs 1715636.5 China
Cis-3-Hexenyl Acetate( 720 Kgs 1235258.3 China
Citric Acid Anhydrous 30-100 Mesh 25 Mts 1246264.3 China
Citric Acid Monohydrate (Food Grade) 25000 Kgs 1104889.5 China
Citric Acid Monohydrate 8-40 Mesh 75 Mts 3253235.3 China
Citronellal 170 Kgs 788319.91 China
Citronellal 170 Kgs 788319.91 China
Citronellol (Aromatic Chemical) 1190 Kgs 511549.67 Germany
Citronellyl Formate (3,7-Dimethyl-6-Octen-1-Yl Formate 25 Kgs 52343.1 Switzerland
Citronellyl Oxyacetaldehyde 25 Kgs 449399.65 Switzerland
Copp Sb9230 (Propylene Copolymers) 10000 Kgs 1106417.1 Korea
Copp Sb9230 (Propylene Copolymers) 15000 Kgs 1659625.7 Korea
Cosmonate T-80 20000 Kgs 2216273.3 Japan
CPVC (Chlorinated Polyvinyl Chloride) Compound Fitting Grade 10 Mts 971115 China
CPVC (Chlorinated Polyvinyl Chloride) Compound Fitting Grade 10 Mts 971115 China
Nandini Chemical Journal, November 2015 Page 69
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Creosol (2-Methoxy-4-Methylphenol 25 Kgs 444285.11 Switzerland
Cristalon (Ethyl 2,6,6-Trimethylcyclohexa-1,3-Diene-1-Carboxylate) 25 Kgs 375724.39 Switzerland
Croscarmellose Sodium/Primellose/ Usp.Nf.Ph.Eur.Jp 525 Kgs 389176.99 Netherlands
Csm Ts-530 (Chiorosulphonated Polyethylen) 800 Kgs 341832.48 Korea
Cuminyl Alcohol (4-Isopropylbenzyl Alcohol) 25 Kgs 66440.45 Switzerland
Cyanoacetamide 1000 Kgs 330179.1 China
Cyclamen Aldehyde Extra 760 Kgs 650465.78 Switzerland
Cyclamen Aldehyde Extra (2-Methyl-3-(4-Isopropylphenyl)Propanal) 570 Kgs 487849.34 Switzerland
Cyclamen Aldehyde Extra( 190 Kgs 162616.45 Switzerland
Cyclopentane (Organic Chemicals) 16.39 Mts 1379436.5 Korea
Cyclopentane (Organic Chemicals) 16.37 Mts 1377753.2 Korea
Cyclopropylamine 3840 Kgs 5096411.5 China
Cyclopropylamine 3400 Kgs 4303059.1 China
Cyclopropylamine (Cpa) 6400 Kgs 8034909.8 China
Cyclopropylamine (Cpa) 12800 Kgs 16032323 China
Cymene Para (1- Methylethyl-4-(1-Methylethyl)Benzene) 680 Kgs 312931.92 France
Deacetyl-7-Amino Cephalosporanic Acid (D-7-Aca) 5000 Kgs 25896400 China
Deacetyl-7-Amino Cephalosporanic Acid (D-7-Aca) 6000 Kgs 31196880 China
Decalactone Gamma 1400 Kgs 870569.5 China
Delta- Damascone 180 Kgs 448976.35 China
Delta Decalactone C-10 (Fine Aromatic Chemicals 1000 Kgs 1877489 Japan
Desmodur 3133 (Di Isocyanate) 18000 Kgs 2517130.1 China
Desmodur 3133 (Di Isocyanate) 18000 Kgs 2517130.1 China
Desmodur 3133 (Di Isocyanate) 18000 Kgs 2517130.1 China
Desmodur T80 (Toluene Di Isocyanate Tdi) In The Ratio 80:20 20000 Kgs 2136453 China
Di Isopropyl Ether 11440 Kgs 1493730.5 China
Di Isopropyl Ether 11600 Kgs 1514551.2 China
Di Sodium Octa Borate Tetra Hydrate(Dot) Boron 20% Fertilizer 2.01 Mts 180229.23 UAE
Diak No 1-Hmdc-70(Hexa Methylene Diamine Carbamate0) 100 Kgs 181546.71 Korea
Dibenzylamine 2000 Kgs 647410 China
Dicumyl Peroxide 99% ) 12 Mts 1939122.4 China
Dicyandiamide 40000 Kgs 4272906 China
Diethanolamine 18000 Kgs 1584859.7 Taiwan
Diethyl Malonate (Diethyl Malonate 200 Kgs 52263.11 China
Diethyl Malonate (Intermediate Chemicals) 32000 Kgs 5096411.5 China
Diethyl Malonate Intermediate Chemicals 32000 Kgs 5096411.5 China
Diethyl Phosphoro Chloride Thioate 20000 Kgs 3198205.4 China
Diethyl Phosphoro Chloride Thioate 20000 Kgs 3198205.4 China
Diethyl Phosphoro Chloride Thioate 20000 Kgs 3198205.4 China
Diethyl Thioglycolate 5980 Kgs 2981064.1 China
Diethylethoxy Methylenemalonate 16000 Kgs 4713144.8 China
Dihydro Eugenol- 100 Kgs 218215.09 France
Dihydromyrcenol 1020 Kgs 501872.23 USA
Dimeth Benz Carb Buty 200 Kgs 188414.71 China
Dimeth Benz Carb Buty 200 Kgs 188414.71 China
Dimethyl Benzyl Carbinyl Acetate 1800 Kgs 616677.81 China
Dimethyl Beta Propiothein (Dmpt 99%) 2000 Kgs 1618525 China
Dimethyl Carbonate 16000 Kgs 915544.8 China
Dimethyl Carbonate 16000 Kgs 854581.2 China
Dimethyl Carbonate 99.9% 16000 Kgs 895974.01 China
Dimethyl Formamide 15200 Kgs 806931.82 China
Dimethyl Formamide 15200 Kgs 806931.82 China
Dimethyl Formamide 4940 Kgs 286491.35 China
Dimethyl Formamide 4940 Kgs 286491.35 China
Dimethyl Formamide 4940 Kgs 286491.35 China
Dimethyl Formamide (DMF) 3000 Kgs 168391.34 Saudi arabia
Dimethyl Formamide (DMF) 15200 Kgs 853182.79 Saudi arabia
Nandini Chemical Journal, November 2015 Page 70
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Dimethyl Formamide 99.9 Pct Minimum 5320 Kgs 291944.76 China
Dimethyl Formamide 99.9 Pct Minimum 8170 Kgs 448343.74 China
Dimethyl Sulfoxide 18000 Kgs 1491632.6 China
Dimethyl Sulfoxide 99.90 Percent 4400 Kgs 393107.35 China
Dimethyl Sulfoxide 99.90 Percent 6160 Kgs 550350.29 China
Dimethyldichlorosilane 3000 Kgs 344745.83 China
Dimethylol Glycol 400 Kgs 58548.08 Germany
Dimethylsulfide Borane 70.5 Kgs 785049.37 USA
Dimetol-Batch No:Pe00120618 160 Kgs 146573.62 Mexico
Dio(2-Tertiarybutyl Peroxy Iso Benzene) 7000 Kgs 3883812.6 Italy
Dipotassium Hydrogen Orthophosphate 2000 Kgs 222528.25 China
Dipotassium Hydrogen Orthophosphate 2000 Kgs 222528.25 China
Dipotassium Hydrogen Orthophosphate 2000 Kgs 222528.25 China
Dipotassium Hydrogen Orthophosphate 7000 Kgs 781942 China
Dipotassium Hydrogen Orthophosphate 7000 Kgs 781942 China
Dipotassium Hydrogen Orthophosphate 7000 Kgs 781942 China
Dipropylene Glycol Bis (1-Hydroxyprop-2-Yl) Ether 22040 Kgs 2768169.8 Korea
Dipropylene Glycol Lo+ Bis (1-Hydroxyprop-2-Yl)Ether 22040 Kgs 2578393.2 Thailand
Dipropylene Glycol Lo+ Bis (1-Hydroxyprop-2-Yl)Ether 22040 Kgs 2578393.2 Thailand
Disodium 5- Ribonucleotide 3000 Kgs 1573789 China
Disodium 5'-Inosinate (50%) And Disodium 5'-Guanylate (50%) 2000 Kgs 1035856 Indonesia
Disodium 5'-Inosinate (50%) Disodium 5'-Guanylate (50%) 3000 Kgs 1538951.1 Indonesia
Disodium Octaborate Tetrahydrate (Etidot-67) 14.4 Mts 1128047.2 Turkey
Divinyl Tetramethyl Disiloxane (Visi-2) 160 Kgs 243426.16 China
Dl Methionine Feed Grade 20000 Kgs 6992028 France
Dl Methionine Feed Grade 20000 Kgs 6992028 France
Dl Methionine Feed Grade 20000 Kgs 6992028 France
Dl-Methionine 99 Percent Feed Grade] 20000 Kgs 6239376 Japan
D-Tartaric Acid 3000 Kgs 1126493.4 China
D-Tartaric Acid 9412 Kgs 3656053.8 China
D-Tartaric Acid 588 Kgs 228406.25 China
Durasyn 168-Hivis Poly Alpha Olefins Pao-30 Drum 1.0206 Mts 235504.8 USA
Dutral Ocp 2530 Pl (Polyethylene) 100 Kgs 36024.12 Germany
Eastman Texanol (Tm) Ester Alcohol 20050 Kgs 2635055.8 Singapore
Eastman Texanol (Tm) Ester Alcohol Bulk 18030 Kgs 2392924.5 Singapore
Eastman Texanol (Tm) Ester Alcohol Bulk 18000 Kgs 2388942.9 Singapore
Ehata [Ethyl(Z)-2-(2-Aminothiozol-4-Yl)-2-Hydroxyiminoacetate ] 3000 Kgs 2252986.8 China
Elvax (R) 265 Resin (Ethylene Vinyl Acetate Copolymer) 10000 Kgs 1475610.8 USA
Epoxy Acrylate 2800 Kgs 534760.66 China
Ethyl 2 Chloroacetoacetate 175 Kgs 220928.66 China
Ethyl Acrylate 14.4 Mts 1351792.1 South africa
Ethyl Acrylate 14400 Kgs 1417051 Korea
Ethyl Butyrate (Aroma Chemical) 6800 Kgs 1430776.1 China
Ethyl Caproate (Aromatic Chemical) 100 Kgs 40633.35 China
Ethyl Isovalerate 25 Kgs 8549.93 China
Ethyl N-Valerate (Aroma Chemical) 180 Kgs 292304.68 USA
Ethyl Vanillin 2000 Kgs 1881882.5 China
Ethyl-2-Bromo Propionate 10000 Kgs 4081013.7 China
Ethyl-2-Bromopropionate 9000 Kgs 3709198 China
Ethyl-2-Methyl Butyrate 360 Kgs 179193.09 China
Ethylene Brassylate 200 Kgs 144107.32 China
Ethylene Brassylate (Astratone) 1200 Kgs 1047875.7 China
Ethylene Brassylate (Astratone) 1200 Kgs 1047875.7 China
Ethylene Carbonate 23.05 Mts 2089192.1 Japan
Ethylene Propylene Copolymer Grade 24750 Kgs 2115088.5 UAE
Ethylene Vinyl Acetate (Eva) - Grade Es18002 51900 Kgs 5712098.4 Korea
Ethylene Vinyl Acetate Copolymer (Eva Vs430) 34.8 Mts 3717428.2 Korea
Nandini Chemical Journal, November 2015 Page 71
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Ethylene Vinyl Acetate Grade Es18002 51900 Kgs 5443293.8 Korea
Ethylene Vinyl Acetate Grade:Es 18002 34.6 Mts 3830466 Korea
Fascat 4201 Catalyst 44 Pail (Dibutyltin Oxide) 2993.71 Kgs 3494498.5 USA
Fe Beta Zeolite,Ze,Ck,Ex,Fe 311.304 Kgs 1009150.8 USA
Fennaldehyde (2-Methyl-3-(4-Methoxyphenyl)Propanal 200 Kgs 474810.49 Switzerland
Folione (Methyl 2-Octynoate 5 Kgs 40786.83 Switzerland
Formic Acid 85% (Intermediate Chemicals) 21600 Kgs 992867.98 Finland
Formic Acid 85% Min 24500 Kgs 745492.62 China
Formic Acid 99-100% 5000 Kgs 390122.6 China
Freskomenthe (2-(1-Methylpropyl)Cyclohexanone) 360 Kgs 264065.59 Switzerland
Frutonile (2-Methyldecanenitrile) 80 Kgs 439358.32 Switzerland
Furaneol (Aromatic Chemical) 400 Kgs 893425.8 China
Furfuryl Alcohol 20000 Kgs 2110556.6 China
Geranyl Acetate 60 180 Kgs 116533.8 Singapore
Geranyl Acetate 60 180 Kgs 116533.8 Singapore
Geranyl Acetate Extra 720 Kgs 512748.72 Singapore
Geranyl Butyrate N (Aroma Chemical) 200 Kgs 265228.42 Germany
Givescone 50 Kgs 309138.28 Switzerland
Glacial Acrylic Acid 14688 Kgs 1842194 USA
Glycol Ether Eb Acetate 11.76 Mts 1161408.4 USA
Glycol Ether Pm 3.82 Mts 433783.54 USA
Glyoxal 40% 20800 Kgs 1211951.5 Germany
Glyoxylic Acid 50% 20000 Kgs 1903385.4 China
Habanolide 585 Kgs 839109.4 USA
Helional 200 Kgs 395822.51 China
Heliotropine (Piperonal) Usdea 2000 Kgs 4105991.4 China
Hexafluoroethane 878.9 Kgs 1677046.2 Hong kong
Hexafluoroethane 229.45 Kgs 437818.01 Hong kong
Hexanoic Acid 2000 Kgs 427290.6 China
Hexenyl - 3-Cis Benzoate (Cis-3-Hexenyl Benzoate 25 Kgs 77559.72 Switzerland
Hexenyl Acetate, Cis & Trans (3-Hexenyl Acetate (Cis &Trans))) 10 Kgs 66969.39 Switzerland
Hexyl Acetate Gl (Organic Chemicals) 3400 Kgs 993562.64 UK
Hexyl Cinnamic Aldehyde (2-Hexyl-3-Phenyl-2-Propenal 15200 Kgs 5241283.8 USA
Hexyl Salicylate 5670 Kgs 1923506.9 Mexico
Hexyl Salicylate 2940 Kgs 997373.95 Mexico
Hexyl Salicylate- 3360 Kgs 1139855.9 Mexico
High Reactive Polybutene 96.66 Mts 11458714 Korea
High Reactive Polybutene Hrpb1000 57.94 Mts 6756056.8 Korea
Hydrazine Hydrate 16000 Kgs 3107568 France
Hydrobromic Acid 19200 Kgs 1441911.6 Jordan
Hydroxy Propyl Methyl Cellulose (Hpmc) E15 Usp 10000 Kgs 3754978 China
Hydroxy Propyl Methyl Cellulose (Hpmc) E3 Usp 500 Kgs 226593.5 China
Hydroxy Propyl Methyl Cellulose (Hpmc) E5 Usp 500 Kgs 207979.2 China
Hydroxy Propyl Methyl Cellulose (Hpmc) E5 Usp 10500 Kgs 3942726.9 China
Hydroxy Propyl Methyl Cellulose (Hpmc) K100m Usp 10500 Kgs 3942726.9 China
Hydroxy Propyl Methyl Cellulose (Hpmc) K4m Usp 10500 Kgs 4418573.3 China
Hydroxylamine Sulphate 20000 Kgs 2460158 Japan
Hydroxylamine Sulphate 20000 Kgs 2460158 Japan
Hydroxypropyl Methyl Cellulose (Hpmc) Pmk-50z. 11000 Kgs 2741781.4 China
Imidazole Ethanol 500 Kgs 890188.75 China
Imidazole, 2000 Kgs 588577.5 China
Iso Propyl Alcohol 1996 Kgs 119531.31 Korea
Iso Propyl Alcohol 15504 Kgs 928463.63 Korea
Iso Eugenol S 915 400 Kgs 628672.71 Indonesia
Iso Propyl Alcohol 6.4 Mts 502787.7 Korea
Iso Propyl Alcohol (Ipa) 960 Kgs 73312.67 Taiwan
Iso Propyl Alcohol (Ipa) 9120 Kgs 690812.37 Taiwan
Nandini Chemical Journal, November 2015 Page 72
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Isoborneol 3000 Kgs 663130.65 China
Isobutavan (4-Formyl-2-Methoxyphenyl2-Methylpropanoate 25 Kgs 54868 Switzerland
Isobutyl Quinoline-2 (2-(2-Methylpropyl)Quinoline 50 Kgs 1063370.9 Switzerland
Isobutyraldehyde 600 Kgs 233067.6 China
Isocyclocitral 25 Kgs 154407.29 Switzerland
Isoeugenol (2-Methoxy-4-Propenylphenol 100 Kgs 318137.27 Switzerland
Isonox 132 (2-6-Di-Tert-Butyl-4 Sec-Butylphenol)( 2231.7 Kgs 1191979 USA
Isophorone Diamine 2160 Kgs 848620.58 Germany
Isopropyl Acetate 28800 Kgs 2423903 China
Isopropyl Acetate 14400 Kgs 1211951.5 China
Isopropyl Trifluoroacetate 98% Min 9600 Kgs 6028681.9 China
Isoraldeine 40 190 Kgs 139367.95 Switzerland
Isoraldeine 70 4560 Kgs 3040755.3 Germany
Isoraldeine 70 4500 Kgs 2674450.7 Switzerland
Isoraldeine 95 50 Kgs 58266.9 Switzerland
Jasmolactone- 5 Kgs 216166.56 Switzerland
Jasmonyl (4-Acetoxy-3-Pentyltetrahydropyran 50 Kgs 41660.83 Switzerland
Jasmonyl(4-Acetoxy-3-Pentyltetrahydropyran 50 Kgs 41660.83 Switzerland
Jasmopyrane 600 Kgs 367469.92 Mexico
Jasmopyrane Forte- 600 Kgs 367469.92 Mexico
Jodcarbabamat (Heterocyclic Compound) 36 Kgs 29876.58 Germany
Karanal 180 Kgs 787768.49 Switzerland
Karanal 180 Kgs 787768.49 Switzerland
Karmaflor ((4z)-Hept-4-En-2-Yl 2-Salicylate) 200 Kgs 952599.07 Switzerland
Karmaflor ((Z)-Hept-4-En-2-Yl 2-Hydroxybenzoate) 400 Kgs 1905198.2 Switzerland
K-Resin Styrene Butadiene Copolymer Kr52 16 Mts 2454154.6 Korea
Kristalloel 60 38.32 Mts 4892130.7 Germany
L (+) Tartaric Acid 3000 Kgs 504979.8 China
L (+) Tartaric Acid 10000 Kgs 1974600.5 China
L (+) Tartaric Acid 60000 Kgs 9322704 China
L- Alanine 4000 Kgs 802788.4 China
Lactic Acid 100 Percent 20400 Kgs 2205596.4 Thailand
Lactic Acid Heatstable 90% 20400 Kgs 1981074.6 Thailand
Lactic Acid-Any Grade 20400 Kgs 1677309.8 Thailand
L-Arginine 3700 Kgs 4191979.8 Japan
L-Arginine 2500 Kgs 1456672.5 Japan
L-Asparagine Monohydrate 2600 Kgs 1637818 China
Lauric Acid 500 Kgs 148942.74 Thailand
Lauric Acid 99% (1299) Flakes 32 Mts 2801044.1 Malaysia
Lauric Acid 99% (1299) Flakes 64 Mts 5602088.2 Malaysia
L-Carnitine Base Usp 500 Kgs 504485.91 China
L-Carnitine Fumarate 2500 Kgs 2296553.2 China
L-Cysteine Hcl, Mono Hydrate 1000 Kgs 686841.11 China
L-Glutamic Acid 500 Kgs 111872.65 China
Liffarome Giv (Cis-3-Hexenyl Methyl Carbonate 25 Kgs 129109.74 Switzerland
Lignosulphonates Technical Powder 123078 Kgs 3029809 Russia
Linalool (Aromatic Chemical) 1400 Kgs 568996.43 Switzerland
Linalool (Aromatic Chemical) 5100 Kgs 2066398.4 China
Linalool (Aromatic Chemical ) 4900 Kgs 1991487.5 Switzerland
Linalool Coeur 1080 Kgs 496433.99 USA
Linalyl Acetate (Aromatic Chemical) 3400 Kgs 1489331 Switzerland
Linalyl Acetate (Aromatic Chemical) 3400 Kgs 1489331 Switzerland
Linalyl Acetate Coeur 1110 Kgs 610831.34 USA
Linalyl Formate (3,7-Dimethyl-1,6-Octadien-3-Yl Formate 50 Kgs 146185.18 Switzerland
L-Lysine Monohydrochloride 98.5% (Feed Grade) 48000 Kgs 4537049.3 Thailand
L-Lysine Hcl Feed Grade, (Feed Supplement) 72000 Kgs 6059757.6 China
L-Lysine Monohydrochloride 98.5% Feed Grade 48000 Kgs 4537049.3 Thailand
Nandini Chemical Journal, November 2015 Page 73
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
L-Lysine Monohydrochloride 98.5% Feed Grade 16000 Kgs 1543425.4 Thailand
L-Lysine Monohydrochloride 98.5% Feed Grade 13661 Kgs 1317791.7 Thailand
L-Lysine Monohydrochloride 98.5% Feed Grade 2339.04 Kgs 225633.75 Thailand
L-Lysine Monohydrochloride 98.5% Feed Grade 16000 Kgs 1584859.7 Thailand
L-Lysine Monohydrochloride Purity Min 99% Feed Grade 2783.65 Kgs 264017.24 Indonesia
L-Lysine Monohydrochloride Purity Min 99% Feed Grade 15216.3 Kgs 1443202.9 Indonesia
L-Lysine Monohydrochloride Purity Min.99 Pct Feed Grade( 36000 Kgs 3659161.3 Indonesia
L-Lysine Monohydrochloride Purity Min.99% Feed Grade- 36 Mts 3472707.2 Indonesia
L-Methionine 500 Kgs 339032.76 China
L-Methionine 99% Feed Grade 16000 Kgs 6007964.8 Malaysia
Lovastatin (Ih) 900 Kgs 2775822 China
L-Phenyl Alanine 6700 Kgs 3261368.3 China
L-Proline 300 Kgs 301045.65 China
L-Proline 1700 Kgs 1705925.4 China
L-Pyroglutamic Acid 1300 Kgs 429232.83 China
L-Threonine 1000 Kgs 171980.78 China
L-Threonine (Feed Grade 98.5%) 40 Mts 4531870 China
L-Threonine 98.5% Feed Grade 257.98 Kgs 40752.59 China
L-Threonine 98.5% Feed Grade 18742 Kgs 2960640.2 China
L-Threonine 98.5% Feed Grade 19000 Kgs 2890685.7 China
L-Threonine Feed Grade 98.5% 17000 Kgs 2366283.6 Singapore
Lumefantrine 6459 Kgs 16726485 China
L-Valine 6000 Kgs 4661352 USA
Maleic Anhydride Briquettes 23 Mts 1548604.7 China
Maltitol 18000 Kgs 2132568.5 China
Maltol 6000 Kgs 5705494.9 China
Maltol 12000 Kgs 11031866 China
Maltol 12000 Kgs 11070711 China
Maltol 12000 Kgs 11070711 China
Maltol 6000 Kgs 5535355.5 China
Masester E7000 Glycerol Tricaprylate/Caprate 2.28 Mts 763141.01 Indonesia
Masester E7000 Glycerol Tricaprylate/Caprate 1.52 Mts 508760.68 Indonesia
Mb (Diphenyl Guanidine) 100 Kgs 53404.85 Korea
Mda-4,4 Diaminodiphenylmethane 1400 Kgs 553080.44 Germany
Mefrosol (3-Methyl-5-Phenyl-1-Pentanol) 400 Kgs 442828.44 Switzerland
Mefrosol (3-Methyl-5-Phenyl-1-Pentanol) 400 Kgs 442828.44 Switzerland
Melamine 5 Mts 433764.7 Qatar
Melamine 40000 Mts 2149401.2 China
Melamine 10 Mts 867529.4 Qatar
Melamine 5 Mts 433764.7 Qatar
Melamine 10 Mts 867529.4 Qatar
Melamine 99.8 Pct 20000 Kgs 1818000 Austria
Melamine Cyanurate (Mc-033) Flame Retardant 10 Mts 1463366.1 China
Meprobamate Bp 2000 Kgs 2518424.9 China
Metamino Dl-Methionine Feed Grade 99% 20000 Kgs 6797805 Singapore
Metamino Dl-Methionine Feed Grade 99% 20000 Kgs 6797805 Singapore
Metamino Dl-Methionine Feed Grade 99% 20000 Kgs 6668323 Singapore
Meth Cedryl Ketone. 400 Kgs 565244.13 China
Meth Cedryl Ketone. 400 Kgs 565244.13 China
Methacrylic Acid 1800 Kgs 611025.76 China
Methacrylic Anhydride 2000 Kgs 1683266 China
Methanol 1920 Kgs 85768.88 Korea
Methyl Cedryl Ether 200 Kgs 322660.89 China
Methyl Dihydrojasmonate 4000 Kgs 2020975.6 China
Methyl Iso Butyl Ketone 99.9 Percent Minimum 13200 Kgs 1264780.2 Korea
Methyl Laitone (8-Methyl-1-Oxaspiro(4,5)Decan-2-One) 10 Kgs 96224.55 Switzerland
Methyl Methacrylate Monomer 20010 Kgs 2307082.4 Singapore
Nandini Chemical Journal, November 2015 Page 74
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Methyl Methacrylate Monomer 40040 Kgs 4616468.1 Singapore
Methyl Octyne Carbonate (Aroma Chemical) 10 Kgs 75209.45 Switzerland
Methyl Pamplemousse (1,1-Dimethoxy-2,2,5-Trimethyl-4-Hexene 50 Kgs 110707.11 UK
Methyl Salicylate (Aromatic Chemical) 900 Kgs 189367.43 China
Methyl(E)-3-Methoxyacrylate-(16 Drums) 3200 Kgs 3677288.8 Switzerland
Methyl3,5-Diamino-6-Chloropyrazine 2-Carboxylate Bp 350 Kgs 4690485.5 China
Methylene Chloride 64800 Kgs 2642986.6 China
Methylene Chloride 43200 Kgs 1761991.1 China
Methylene Chloride 43200 Kgs 1761991.1 China
Methylene Chloride 20000 Kgs 867529.4 China
Methylene Chloride 99.9 Percentage Min 21.6 Mts 867662.79 China
Methylene Chloride 99.9 Percentage Min 21.6 Mts 867662.79 China
Methylene Chloride 99.9 Percentage Min 21.6 Mts 867662.79 China
Methylene Chloride 99.95 Percent Min 21.6 Mts 880995.53 China
Mmtd [2-Methyl-5-Mercapto Thiadiazole] 2300 Kgs 1191234.4 China
Mono Ammonium Phosphate 200000 Kgs 9270911.2 China
Mono Chloro Acetone 98% Min 800 Kgs 414342.4 China
Mono Chloro Acetone 98% Min 800 Kgs 414342.4 China
Monomer (Procam M-156g) 10 Kgs 2469.27 Korea
Monomer (Procam M-160g) 10 Kgs 2469.27 Korea
Monophenylglycol 400 Kgs 94643.26 Germany
Monosodium Glutamate 17000 Kgs 1430776.1 China
Monosodium Glutamate (Ajinomoto Brand) 17800 Kgs 1759699.2 Thailand
Moxalone 10 Kgs 226910.73 Switzerland
N Propyl Acetate 20.77 Mts 1539647.8 Taiwan
N-(2-Amino-4,6-Dichloro-5-Pyrimidinyl)Formamide 1000 Kgs 3576940.3 China
N-(2-Amino-4,6-Dichloro-5-Pyrimidinyl)Formamide 2000 Kgs 7153880.5 China
N-(2-Amino-4,6-Dichloro-5-Pyrimidinyl)Formamide 1000 Kgs 3463643.5 China
N,N-Carbonyl Diimidazole 3000 Kgs 3650203.1 China
N,N-Dicyclohexyl Carbodiimide 11400 Kgs 4944917.6 China
N,N-Dicyclohexyl Carbodiimide 360 Kgs 163570.01 China
N,N-Dicyclohexyl Carbodiimide 2000 Kgs 1126493.4 China
N,N-Dimethylacetamide 15200 Kgs 1131672.7 Turkey
N.N-M-Phenylenedimaleimide Vulnoc Pm 120 Kgs 138582.44 Japan
Nan Ya Tetrahydrofuran (99.8pct Min) 3139 Kgs 422701.76 Taiwan
Nan Ya Tetrahydrofuran (99.8pct Min) 1150 Kgs 154860.47 Taiwan
Nan Ya Tetrahydrofuran (99.8pct Min) 10111 Kgs 1361560.2 Taiwan
Naphthalene 23060 Kgs 1224200.5 Denmark
Naphthalene 21.4 Mts 1378530.1 Germany
Natural Octanoic Acid 720 Kgs 452638.52 Germany
N-Cyclohexylthiophthlimide Retarder Ctp 20 Kgs 11098.35 Japan
Neocaspirene Extra 2 Kgs 46933.34 Switzerland
Nerolidol Synt (3,7,11-Trimethyl-1,6,10-Dodecatrien-3-Ol 170 Kgs 163108.48 Switzerland
N-Ethyl-2-Amino Methyl Pyrrolidine 4080 Kgs 8584656.6 China
Nifuroxazide Ep 3000 Kgs 5049798 China
Nirvanolide (12-Methyl-9-Tetradecen-14-Olide (Cis & Trans)) 25 Kgs 762114.87 Switzerland
Nonyl Phenol 15.2 Mts 1594182.4 Taiwan
N-Propyl Bromide 18000 Kgs 4020416.1 USA
N-Propyl Bromide 18000 Kgs 4020416.1 USA
N-Propyl Bromide 18000 Kgs 4020416.1 USA
N-Propyl Bromide 18000 Kgs 4020416.1 USA
O,O Di Ethyl Thio Phosphoryl Chloride 20000 Kgs 3729081.6 China
O,O,Dimethyl Phosphoramido Thioate 95% Min 20000 Kgs 3479147 China
O,O,Dimethyl Phosphoramido Thioate (Dmpat) 95 Pct Min 20000 Kgs 3194579.5 China
O,O,Dimethyl Phosphoramiodo Thioate (Dmpat) 95 Pct Min 20000 Kgs 3179732.5 China
Ocimene Pq 1980 Kgs 6082776 UK
Octamethyl Cyclotetra Siloxane 15200 Kgs 2738114.9 Thailand
Nandini Chemical Journal, November 2015 Page 75
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Octamethyl Cyclotetra Siloxane 15200 Kgs 2738114.9 Thailand
Octamethyl Cyclotetra Siloxane 15200 Kgs 2738114.9 Thailand
Oj Glycerine Tech 23480 Kgs 638449.85 Sweden
Ortho Chloro Phenol 20000 Kgs 1165338 China
Para Amino Phenol 90000 Kgs 13984056 China
Para Amino Phenol 108 Mts 16780867 China
Para Amino Phenol 72000 Kgs 11187245 China
Para Amino Phenol 108 Mts 16780867 China
Para Amino Phenol 66 Mts 9827683.8 China
Para Amino Phenol 60 Mts 8934258 China
Para Fluoro Thiophenol 50 Kgs 116176.11 China
Para Fluoro Thiophenol 450 Kgs 1045585 China
Para Fluoro Thiophenol 500 Kgs 1161761.1 China
Paraformaldehyde 3 Mts 147210.28 Taiwan
Paraformaldehyde 96% 20 Mts 1138146.8 Spain
Paraquat Dichloride 17600 Kgs 4272906 Taiwan
Pbt Chips Grade Dhk006 5000 Kgs 550298.5 Taiwan
Pentaerythritol Nitr. Grade 52500 Kgs 6202997.1 Sweden
Peonile (2-Cyclohexylidene-2-Phenylacetonitrile) 4000 Kgs 2895217.5 Switzerland
Peonile (2-Cyclohexylidene-2-Phenylacetonitrile) 2600 Kgs 1881891.4 Switzerland
Perchloroethylene Catalyst Grade 20130 Kgs 1072730.2 Belgium
PET (Polyester Chips) Grade H1 17250 Kgs 1131469.4 China
PET (Polyester Chips) Grade H1 17250 Kgs 1131469.4 China
PET Chips Cb-651 9900 Kgs 732376.76 Taiwan
PET Chips Wk-821 & Wk-881 9900 Kgs 734839.01 China
Petroform Pf 97 Potassium Formate 97% 21 Mts 2924562.1 Norway
Phen Eth Iso Buty 200 Kgs 155804.47 China
Phen Eth Iso Buty 200 Kgs 155804.47 China
Phenethyl Acetate 200 Kgs 94521.86 China
Phenol 16.8 Mts 1408505.2 Korea
Phenoxanol 540 Kgs 557717.1 China
Phenyl Chloro Formate 4000 Kgs 919322.2 China
Phenyl Chloro Formate 4000 Kgs 919322.2 China
Phenyl Ethyl Alcohol 13800 Kgs 3569073.2 China
Phenyl Ethyl Alcohol 13800 Kgs 3569073.2 China
Phenyl Ethyl Alcohol 16000 Kgs 4730862.2 China
Phenyl Ethyl Alcohol 16000 Kgs 4730862.2 China
P-Hydroxybenzaldehyde 3000 Kgs 1942230 China
Piperazine Anhydrous 8000 Kgs 2071712 Netherlands
Piracetam Ip/Ep/Bp 5000 Kgs 3787348.5 China
Pivacyclene 10 Kgs 69337.61 Switzerland
Pmsc1 Pentaerythritol, Mono Grade 20000 Kgs 2201194 Saudi arabia
Poly Butylene Terepthalate 9000 Kgs 2388942.9 Korea
Poly Butylene Terepthalate 2000 Kgs 427290.6 Korea
Poly Methyl Mehta Acrylate 2000 Kgs 466135.2 Korea
Poly Methyl Mehta Acrylate- 32000 Kgs 5158562.9 Korea
Poly Methyl Metha Acrylate 250 Kgs 74775.86 Japan
Poly Methyl Metha Acrylate 250 Kgs 74775.86 Japan
Poly Propylene Moplen Rp242g 17000 Kgs 1599717.7 Thailand
Polyacetal 10000 Kgs 1113545.2 Malaysia
Polyacetal 2000 Kgs 222709.04 Malaysia
Polyacetal 6000 Kgs 539939.94 Malaysia
Polyacetal 12000 Kgs 1079879.9 Malaysia
Polyacetal Gf705 1000 Kgs 158615.45 Korea
Polyacetal K100 1000 Kgs 110059.7 Korea
Polyacetal K300 7000 Kgs 575547.49 Korea
Polyacetal K500 2000 Kgs 164442.14 Korea
Nandini Chemical Journal, November 2015 Page 76
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Polyacetal K700 5000 Kgs 411105.35 Korea
Polybutylene Terephthalate 5000 Kgs 807320.27 Taiwan
Polybutylene Terephthalate 5000 Kgs 590761.63 Taiwan
Polybutylene Terephthalate 1125 Kgs 218500.88 Malaysia
Polybutylene Terephthalate 3375 Kgs 655502.63 Malaysia
Polybutylene Terephthalate 3750 Kgs 752614.13 Malaysia
Polybutylene Terephthalate 15000 Kgs 2019919.2 Korea
Polybutylene Terephthalate 15000 Kgs 2019919.2 Korea
Polybutylene Terephthalate 15000 Kgs 2019919.2 Korea
Polybutylene Terephthalate 15000 Kgs 2019919.2 Korea
Polycarbonate 1201-15 W0991t 9000 Kgs 1398405.6 Korea
Polycarbonate 1303-15c W0992t 2960 Kgs 459920.06 Korea
Polycarbonate 1303-15c W0992t 4720 Kgs 733386.05 Korea
Polycarbonate 1303-15c W0992t 320 Kgs 49721.09 Korea
Polyester Chips Bottle Grade B280 21000 Kgs 1386752.2 Taiwan
Polyester Chips Bottle Grade Iv 0.87 66000 Kgs 4203779.6 China
Polyethylene Hi-Zex Million 240 S(1 Bag) 25 Kgs 11477.7 Japan
Polyisobutylene- 98.83 Mts 9787101.2 Korea
Polyisobutylene Grade-Pb2400 4320 Kgs 489441.96 Korea
Polyisobutylene Grade-Pb950 29180 Kgs 3249324.9 Korea
Polyisobutylene Grade-Pb950 9700 Kgs 1080138.8 Korea
Polymethylene - Polyphenylene - Isocyanate Pm-2010 60 Mts 5519817.7 China
Polymethylene - Polyphenylene - Isocyanate Pm-2010 60 Mts 5519817.7 China
Polymethylene - Polyphenylene - Isocyanate Pm-2010 40 Mts 3679878.4 China
Polymethylene - Polyphenylene - Isocyanate Pm-2010 60 Mts 5519817.7 China
Polymethylene - Polyphenylene - Isocyanate Pm-2010 40 Mts 3604778.9 China
Polymethylene Polyphenylene Isocyanate Wannate Pm - 2010 20 Mts 2068156.8 China
Polyphenylene Sulfide - 2000 Kgs 1035856 Malaysia
Polypropylene Glycol 4 Mts 555477.78 Korea
Polypropylene Glycol 4 Mts 542529.58 Korea
Polypropylene Glycol 8 Mts 1085059.2 Korea
Propionaldehyde 38400 Kgs 4164141.1 China
Propionic Acid Pure 20000 Kgs 1243027.2 Germany
Propionic Acid Pure 20000 Kgs 1243027.2 Germany
Propionic Acid Pure 20000 Kgs 1243027.2 Germany
Propylene Copolymer Be961mo 74250 Kgs 6201054.8 UAE
Propylene Glycol Usp Grade 17.2 Mts 1805947.6 Korea
Propylene Glycol Usp/Ep 20.01 Mts 1698357.8 USA
Propylene Glycol Usp/Ep 19.99 Mts 1696660.3 USA
Propylene Glycol Usp/Ep 17200 Kgs 1759401.4 Thailand
Propylene Glycol Usp/Ep 17200 Kgs 1759401.4 Thailand
Propylene Glycol Usp/Ep 17200 Kgs 1794589.4 Thailand
Propylene Glycol Usp/Ep 17.2 Mts 1565644.6 USA
Propylene Glycol Usp/Ep; 10105 Kgs 1090388.9 Thailand
Proxel Gxl (1,2-Benzisothiazoline-3-One) 6000 Kgs 1890454.5 UK
Quintone (2-Pentylcyclopentanone) 10 Kgs 21118.51 UK
Rhodine 3126/Acetylsalicylic Acid Ph,Eur (Aspirin) 6600 Kgs 3298683.4 France
Rhodinol Pure 10 Kgs 719104.18 Switzerland
Rhubafuran (Furan, Tetrahydro-2,4-Dimethyl-4-Phenyl 200 Kgs 2622010.5 Switzerland
Rhubafuran Toco (Aromatic Chemical) 25 Kgs 125008.46 Switzerland
Sachtolith(Sulphides) 100 Kgs 36592.55 Germany
Salicylaldehyde 8000 Kgs 3081671.6 China
Sewon L-Lysine Hcl 99% Feed 34000 Kgs 3015635.8 Korea
Sewon L-Lysine Hcl 99% Feed 34000 Kgs 3015635.8 Korea
Sewon L-Lysine Hcl 99% Feed Grade 34000 Kgs 3125695.5 Korea
Silvial (2-Methyl-3-(4-(2-Methylpropyl)Phenyl)Propanal) 190 Kgs 265574.06 Switzerland
S-Mandelic Acid 2000 Kgs 2265935 China
Nandini Chemical Journal, November 2015 Page 77
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Sodium Glucoheptonate 5000 Kgs 1343375.8 China
Sodium Glucoheptonate 5000 Kgs 1343375.8 China
Sodium Gluconate ( 25kg Bags ) Industrial Grade 25000 Kgs 995392.88 China
Sodium Gluconate ( 25kg Bags ) Industrial Grade 25000 Kgs 995392.88 China
Sodium Gluconate (Industrial Grade) 25 Mts 995392.88 China
Sodium Gluconate (Industrial Grade) 25 Mts 995392.88 China
Sodium Gluconate (Industrial Grade) 25 Mts 995392.88 China
Sodium Gluconate (Industrial Grade) 25 Mts 995392.88 China
Sodium Gluconate- Technical Grade 25000 Kgs 1100597 China
Sodium Gluconate- Technical Grade 25000 Kgs 1100597 China
Sodium Lauryl Ether Sulfate 50400 Kgs 3980918.4 Thailand
Sodium Metasilicate 50 Kgs 2451.35 Germany
Sodium Tetra Borate 210 Mts 6797805 Turkey
Spirogalbanone Pure 50 Kgs 1412389.7 Switzerland
Taa [Tetrazole Acetic Acid] 2300 Kgs 2695167.8 China
Tdi ( Toluene Diisocyanate ) 20000 Kgs 2227090.4 Korea
Ter Orcinyl Rd (Aromatic Chemical) 1 Kgs 132870.02 Switzerland
Terpenyl Acetate (Aromatic Chemical) 3145 Kgs 921013.3 China
Terpineol 550 Kgs 448594.7 USA
Tertiary Butanol [Tertiary Butyl Alcohol] 99200 Kgs 8670114.7 China
Tetra Hydro Furan 12240 Kgs 1902078.9 Taiwan
Tetra Hydro Furan 2160 Kgs 335660.98 Taiwan
Tetra Sodium Pyrophosphate 15000 Kgs 1209178.7 China
Tetrahydro Linallol (Aromatic Chemical) 2550 Kgs 1123404.4 China
Tetrahydrofuran 14400 Kgs 1864540.8 Taiwan
Tetrahydrofuran , 14400 Kgs 2060317.6 Taiwan
Tetrahydrofuran(Thf)180kg 1a1 1l 14400 Kgs 2050994.9 Malaysia
Tetrahydrofuran, 4320 Kgs 649789.56 Malaysia
Tetrahydrogeraniol 340 Kgs 187101.49 Singapore
Tetrahydrogeraniol 340 Kgs 187101.49 Singapore
Tetralone (Or) 4-(3,4-Dichlorophenyl)-1-Tetralone 10000 Kgs 7193725 China
Thiophenol(Adc List Slno:1565) 8000 Kgs 2477429 Japan
T-Hydro (R) Solution (Tertiary Butyl Hydro Peroxide) In Drums 15.2 Mts 1610911.5 Netherlands
T-Hydro (R) Solution (Tertiary Butyl Hydro Peroxide) In Drums 15.2 Mts 1610911.5 Netherlands
Tmptma(Sr301ta)(Trimethylol Propane Trimethacrylate) 1000 Kgs 362549.6 China
Tmptma(Sr307)(Trimethylol Propane Trimethacrylate) 50 Kgs 12430.27 China
Toluene Di Isocyanate Cosmonate T-80 20 Mts 2201194 Japan
Toluene Di Isocyanate Cosmonate T-80 20000 Kgs 2188245.8 Japan
Tolyltriazole (Tta) Granular 7000 Kgs 1631473.2 China
Transpara Amino Cyclo Hexanol 2000 Kgs 3625496 China
Triamterene Pg 1050 Kgs 2685822.3 Spain
Tributoxy Ethyl Phosphate 1600 Kgs 341832.48 China
Tricyclal 1800 Kgs 865163.7 China
Tridecene-2-Nitrile 50 Kgs 273724.95 Switzerland
Triethyl Orthoformate 9000 Kgs 1415885.7 China
Trimethyl Orthoformate 16000 Kgs 2848604 China
Trimethylol Propane Triacrylate 2000 Kgs 407868.3 China
Trimethylsilyl Trifluoromethanesulfonate 986 Kgs 2553385 China
Triphenyl Phosphine 12500 Kgs 6312247.5 China
Triphenyl Phosphine (Adc List Sl.No-1632) 10000 Kgs 4608102.5 China
Tripropylene Glycol Diacrylate 3600 Kgs 734162.94 China
Trixylyl Phosphat 2760 Kgs 1965536.8 UK
Trixylyl Phosphate 3680 Kgs 2620715.7 UK
Undecalactone Delta (Aromatic Chemicals) 100 Kgs 322802.06 Romania
Ursodeoxycholic Acid Ep7 1000 Kgs 18515926 China
Vanillin 1500 Kgs 1119395.6 China
Vanillin 1500 Kgs 1119395.6 China
Nandini Chemical Journal, November 2015 Page 78
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Vanillin 2500 Kgs 1812748 China
Vanillin (4-Hydroxy-3-Methoxy-Benzaldehyde) 10000 Kgs 8291943.5 France
Veloutone (2,5,5-Trimethyl-2-Pentyl-Cyclo-Pentanone 25 Kgs 138400.07 Switzerland
Velvione (5-Cyclohexadecen-1-One) 350 Kgs 5109456.8 Switzerland
Velvione (5-Cyclohexadecen-1-One) 175 Kgs 2554728.4 Switzerland
Verdantiol 25 Kgs 71668.29 Switzerland
Vernaldehyde 90 Kgs 382813.53 Switzerland
Visiomer (R) Gmaa (Methacrylic Acid Stab ) 19980 Kgs 2638791.4 China
Vulcanization Accelerator Accel Dm- R 20 Kgs 7398.2 Japan
Zdma (Sr436)(Zinc Dimethacrylate) 100 Kgs 50497.98 China
Zeolite H Beta (Powder) 1500 Kgs 3301791 Korea
Zinc Pyrithione (Zinc Omadine) 3 Kgs 1444.63 USA
Zinc Pyrithione (Zinc Omadine) 18000 Kgs 8667784.1 USA
Zinc Pyrithione (Zinc Omadine) 18000 Kgs 8667784.1 USA
Zinc Pyrithione (Zinc Omadine) 3 Kgs 1444.63 USA
CATEGORY: INORGANIC CHEMICALS
Activated Carbon 18000 Kgs 1905327.6 China
Activated Carbon 18000 Kgs 1905327.6 China
Activated Carbon 36000 Kgs 3635854.6 China
Activated Carbon 36000 Kgs 3635854.6 China
Activated Carbon 20010 Kgs 2655708.2 Japan
Activated Carbon 7800 Kgs 1137407 UK
Activated Carbon 12000 Kgs 3585072.8 UK
Alumina Cl5000 Q01/H01; 1250kg Sb Ds (Calcined Alumina) 25000 Kgs 2208497.6 Germany
Alumina Cl5000 Q01/H01; 1250kg Sb Ds (Calcined Alumina) 25000 Kgs 2208497.6 Germany
Alumina Ct800; 1250kg Sb Ds (Calcined Alumina) 25000 Kgs 1412510.3 Germany
Alumina Ct800; 1250kg Sb Ds (Calcined Alumina) 25000 Kgs 1412510.3 Germany
Alumina P6 Lk 35 (Ai203) 2000 Kgs 434847.42 Germany
Aluminium Hydroxide 22000 Kgs 1495517.1 Germany
Aluminium Hydroxide 22000 Kgs 1495517.1 Germany
Aluminium Hydroxide 10000 Kgs 404121.2 Netherlands
Aluminiumoxid Wra Fg 1000 Kgs 262897.95 Germany
Aluminum Grit 100y 720 Kgs 196910.81 Japan
Aluminum Oxide 362.88 Kgs 212227.39 USA
Aluminum Oxide 5080.32 Kgs 2971183.4 USA
Aluminum Oxide 544.32 Kgs 318341.08 USA
Aluminum Oxide 544.32 Kgs 318341.08 USA
Aluminum Oxide 244 60 Kgs 46737.58 Japan
Ammonium Chloride Technical Grade Purity 99.51% Min 23.5 Mts 290245.15 China
Antimony Trisulphide 1000 Kgs 618875.99 Austria
Antimony Trisulphide 1000 Kgs 557059.44 Austria
Barium Hydroxide, Octahydrate 500 Kgs 88205.95 USA
Black Iron Oxide 247 1500 Kgs 433376.16 Japan
Black Iron Oxide 564 100 Kgs 26657.02 Japan
Blue Tungsten Oxide 3000 Kgs 5244021 China
Brown Fused Alumina (Synthetic Aluminum Oxide 2nd Grade) P40 7000 Kgs 271912.2 China
Brown Fused Alumina (Synthetic Aluminum Oxide 2nd Grade) P50 10000 Kgs 388446 China
Brown Fused Alumina (Synthetic Aluminum Oxide 2nd Grade) P60 8000 Kgs 310756.8 China
Brown Fused Alumina 16f 3000 Kgs 128187.18 China
Brown Fused Alumina -16f 3000 Kgs 128187.18 China
Brown Fused Alumina 4/8(3-16/7) 4000 Kgs 170916.24 China
Brown Fused Alumina 4/8(3-16/7) 4000 Kgs 170916.24 China
Brown Fused Alumina 7/16(8/16)Grit 18000 Kgs 769123.08 China
Brown Fused Alumina Adc Sl No : 364 23 Mts 1139117.9 China
Brown Fused Alumina Af10sb F30/25mt 25 Mts 1266198.4 China
Nandini Chemical Journal, November 2015 Page 79
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Brown Fused Alumina Af10sb F36/25mt 25 Mts 1274294.3 China
Brown Fused Alumina Af20v (F80, F100 & F120) 15000 Kgs 762325.28 China
Brown Fused Alumina Af50 F30/25mt 25 Mts 845211.7 China
Brown Fused Alumina F100 / F120 11 Mts 507051.51 China
Brown Fused Alumina F150 / F220 13 Mts 569785.54 China
Brown Fused Alumina Of 60%-70% A1203 15.625 Mts 276198.76 China
Brown Fused Alumina Of 80%-85% A1203 4.15 Mts 161660.16 China
Brown Fused Alumina Of 95%A1203 0.35 Mts 19018.84 China
Brown Fused Alumina Rbt40 (F54) 3000 Kgs 165089.55 China
Brown Fused Alumina7/16(8/16)Grit 18000 Kgs 769123.08 China
Brown Fused Aluminum - Grit 20# - 54000 Kgs 3181372.7 China
Brown Fused Aluminum - Grit 46# - 121000 Kgs 7011126.6 China
Calcined Alumina (Alumax Bh300) 500 Kgs 332445.04 China
Calcined Alumina (Alumax Bh300-77ln) 500 Kgs 684312.37 China
Calcined Alumina (Alumax N8x) 500 Kgs 207171.2 China
Calcined Alumina Ct700 2 Mts 109110.81 Netherlands
Calcined Alumina Ct700 18 Mts 981997.27 Netherlands
Calcium Carbide (Size:50-80mm) 22.5 Mts 895853.59 China
Calcium Carbide (Size:50-80mm) 22.5 Mts 895853.59 China
Calcium Carbide (Size:50-80mm) 45 Mts 1795899.9 China
Calcium Carbide (Size:50-80mm) 45 Mts 1795899.9 China
Calcium Carbonate 1200 Kgs 102589.74 Japan
Calcium Carbonate 20 Mts 162763.73 Malaysia
Calcium Carbonate 168000 Kgs 1609720.2 Malaysia
Calcium Carbonate 500 Kgs 25099.47 Japan
Calcium Carbonate 14000 Kgs 215520.79 Japan
Calcium Carbonate 24 Mts 212868.41 Malaysia
Calcium Carbonate 48 Mts 435059.52 Malaysia
Calcium Carbonate 24000 Kgs 218488.04 Malaysia
Calcium Carbonate 18000 Kgs 565188.93 Malaysia
Calcium Carbonate 96000 Kgs 1056573.1 Malaysia
Calcium Carbonate 96000 Kgs 1056573.1 Malaysia
Calcium Carbonate (Caco3) 3000 Kgs 81962.11 Korea
Calcium Carbonate Omyacarb 2t 120000 Kgs 1196413.7 Malaysia
Calcium Carbonate Omyacarb 2t 120000 Kgs 1196413.7 Malaysia
Calcium Carbonate Omyacarb 2t 96000 Kgs 932270.4 Malaysia
Calcium Carbonate Omyacarb 2t 96000 Kgs 932270.4 Malaysia
Calcium Carbonate Omyacarb 2t 168 Mts 1674979.2 Malaysia
Calcium Carbonate Omyacarb 2t 144000 Kgs 1398405.6 Malaysia
Calcium Carbonate Omyacarb 2t 48000 Kgs 474686.41 Malaysia
Calcium Carbonate Omyacarb 2t-Ip 168000 Kgs 1609720.2 Malaysia
Calcium Carbonate Powder 75000 Kgs 626369.18 Malaysia
Calcium Carbonate Powder 50000 Kgs 417579.45 Malaysia
Calcium Carbonate Powder 208 Mts 1324542.5 Vietnam
Calcium Carbonate Powder 208 Mts 1324542.5 Vietnam
Calcium Carbonate Powder 208 Mts 1324542.5 Vietnam
Calcium Carbonate Powder 52 Mts 333878.4 Vietnam
Calcium Carbonate Powder 150000 Kgs 1252738.4 Malaysia
Calcium Carbonate Powder 75000 Kgs 592380.15 Malaysia
Calcium Carbonate Powder 75000 Kgs 592380.15 Malaysia
Calcium Carbonate Powder 75000 Kgs 592380.15 Malaysia
Calcium Carbonate Powder 500 Kgs 27284.14 Japan
Calcium Hydroxide 350 Kgs 11439.61 Germany
Calcium Hydroxide 300 Kgs 9805.38 Germany
Calcium Hydroxide 350 Kgs 11439.61 Germany
Calcium Hydroxide 300 Kgs 9805.38 Germany
Carbon Black 160 Kgs 60493.99 Japan
Nandini Chemical Journal, November 2015 Page 80
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Carbon Black 160 Kgs 58940.21 Japan
Carbon Black N220 66000 Kgs 3631970.1 China
Carbon Black N220 49400 Kgs 2606537.4 Korea
Carbon Black N220 140600 Kgs 7418606.5 Korea
Carbon Black 453 ) 20 Kgs 5363.33 Japan
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 10200 Kgs 528286.56 Korea
Carbon Black Corax N339 17000 Kgs 882538 Korea
Carbon Black Hafl N326 10000 Kgs 752046 Korea
Carbon Black Hafl N326 31000 Kgs 2331342.6 Korea
Carbon Black N234 162000 Kgs 9072156.3 Korea
Carbon Black N234 7800 Kgs 308037.68 Japan
Carbon Black N234 40000 Kgs 2278883.2 China
Carbon Black N326 17500 Kgs 691110.18 Japan
Carbon Black N339 66000 Kgs 3418324.8 China
Carbon Black N550 13200 Kgs 521294.53 Japan
Carbon Black Oil 3889.89 Mts 101785896 China
Carbon Black Oil 8339.32 Mts 210652602 China
Carbon Black Vulcan 1391 1000 Kgs 375497.8 Netherlands
Carbon Black Vulcan 1391 1000 Kgs 375497.8 Netherlands
Carbon Black Vulcan 1391 2000 Kgs 752753 Netherlands
Carbondioxide (Co2),99.9995%- 540 Kgs 138705.61 Hong kong
Carfosel B 940 Food Grade Phosphate 20000 Kgs 2686600 Belgium
Cerium Zirconium Oxide 1000 Kgs 1423322.4 China
Cerium Zirconium Oxide 2000 Kgs 2719263.1 China
Coated Calcium Carbonate Iokalit 10 C 81 Mts 723674.9 Greece
Coated Calcium Carbonate Iokalit 10 C 81 Mts 723674.9 Greece
Coated Calcium Carbonate Iokalit 10 C 81 Mts 723674.9 Greece
Coated Calcium Carbonate Iokalit 15 C 48.6 Mts 402740.81 Greece
Coated Calcium Carbonate Iokalit 15 C 48.6 Mts 402740.81 Greece
Coated Calcium Carbonate Iokalit 15 C 48.6 Mts 402740.81 Greece
Coated Calcium Carbonate Iokalit Kalkolin 5.4 Mts 40553.76 Greece
Coated Calcium Carbonate Iokalit Kalkolin 5.4 Mts 40553.76 Greece
Coated Calcium Carbonate Iokalit Kalkolin 5.4 Mts 40553.76 Greece
Coated Calcium Carbonate Jv-2s C 108 Mts 753391.52 Vietnam
Coated Calcium Carbonate Tkn 1c 26000 Kgs 235913.23 Malaysia
Coated Calcium Carbonate Tkn 1c 26000 Kgs 235913.23 Malaysia
Coated Calcium Carbonate Tkn 1c 26000 Kgs 235913.23 Malaysia
Coated Calcium Carbonate Tkn 1c 104 Mts 884883.22 Malaysia
Coated Calcium Carbonate Tkn 2c 52000 Kgs 400178.75 Malaysia
Coated Calcium Carbonate Tkn 2c 52000 Kgs 400178.75 Malaysia
Coated Calcium Carbonate Tkn 2c 52000 Kgs 400178.75 Malaysia
Colloidal Calcium Carbonate 20000 Kgs 524402.1 Taiwan
Colloidal Calcium Carbonate 20000 Kgs 524402.1 Taiwan
Copper Iron Sulphide 1000 Kgs 324714.5 Austria
Czo5052 (Cerium Zirconium Oxide) 1000 Kgs 1554431.4 UK
Czo5052 (Cerium Zirconium Oxide) 500 Kgs 777215.71 UK
Czo5052 (Cerium Zirconium Oxide) 500 Kgs 777215.71 UK
Nandini Chemical Journal, November 2015 Page 81
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Dicalcium Phosphate Anhydrous 16329.1 Kgs 2050897.3 USA
Ft Carbon Black 2000 Kgs 502390.16 Japan
Fumed Silica Hdk N20 60081209 3200 Kgs 932270.4 China
Fumed Silica Xysil200 4000 Kgs 961903.8 China
Fumed Silica Xysil200 4000 Kgs 958166.8 China
Green Silicon Carbide 0.4 Mts 43995.39 China
High Purity Calcium Hydroxide 270 Mts 2619119.9 Malaysia
High Purity Calcium Hydroxide 143.97 Mts 1396578.6 Malaysia
High Purity Calcium Hydroxide 36.03 Mts 349508.41 Malaysia
Insolube Sulphur 18000 Kgs 2686549.5 USA
Insolube Sulphur 18000 Kgs 2686549.5 USA
Insolube Sulphur 18000 Kgs 2686549.5 USA
Insolube Sulphur 18000 Kgs 2686549.5 USA
Insolube Sulphur 18000 Kgs 2680277.4 USA
Insolube Sulphur 18000 Kgs 2680277.4 USA
Insolube Sulphur 18000 Kgs 2680277.4 USA
Insolube Sulphur 18000 Kgs 2680277.4 USA
Insolube Sulphur 18000 Kgs 2686549.5 USA
Insolube Sulphur 3600 Kgs 539818.74 USA
Insolube Sulphur 7200 Kgs 1079637.5 USA
Insolube Sulphur 14400 Kgs 2159275 USA
Iron Oxide Orange R-2360 6 Mts 506381.31 China
Iron Oxide Red R-2541 10 Mts 804096.3 China
Light Sodium Carbonate (Soda Ash Light) 112 Kgs 1688.6 Iran
Light Sodium Carbonate (Soda Ash Light) 18589 Kgs 280262.64 Iran
Light Sodium Carbonate (Soda Ash Light) 179790 Kgs 2710658 Iran
Light Sodium Carbonate (Soda Ash Light) 226296 Kgs 3411819.6 Iran
Light Sodium Carbonate (Soda Ash Light) 103563 Kgs 1561398.7 Iran
Manganese Sulfide Plus 500 Kgs 523430.99 USA
Manganese sulphate monohydrate 25 Mts 1208010.5 China
Manganous Oxide 3 Mts 253849.46 USA
Molybdenum Disulfide 415 200 Kgs 523563.1 Japan
Mono Potassium Phosphate 19.9 Mts 1656374.1 China
Natural Manganese Dioxide Monda 2 50 Kgs 2463.46 Singapore
Nz Plus 1595 100 32170100-Dr40p(Aluminum Oxide 725.76 Kgs 379946.73 USA
Nz0148 Aluminium Oxide Norzon Nv Plus Alundum-Coated 11000 Kgs 4093216.7 USA
Nz0149 Aluminium Oxide Norzon Nv Plus Alundum-Coated 6000 Kgs 2232663.7 USA
Nz0150 Aluminium Oxide Norzon Nv Plus Alundum-Coated 2000 Kgs 744221.22 USA
Nz0169 Aluminium Oxide Norzon Nv Plus Alundum-Coated 1000 Kgs 372110.61 USA
Pink Fused Alumina 0.8 Mts 62850.56 China
Pink Fused Alumina Paza 7000 Kgs 589143.1 China
Potassium Carbonate 20 Mts 1333664.6 Korea
Potassium Carbonate 20 Mts 1333664.6 Korea
Potassium Carbonate 20 Mts 1333664.6 Korea
Potassium Carbonate 24 Mts 1623704.3 Thailand
Potassium Carbonate 24 Mts 1623704.3 Thailand
Potassium Carbonate 24 Mts 1623704.3 Thailand
Potassium Chloride 361980 Kgs 8553755.7 Germany
Potassium Chloride 361980 Kgs 8553755.7 Germany
Potassium Chloride 361980 Kgs 8553755.7 Germany
Potassium Humate 24 Mts 649481.71 China
Potassium Humate 24 Mts 649481.71 China
Potassium Humate 24 Mts 649481.71 China
Potassium Hydroxide 25000 Kgs 1658988.1 China
Potassium Hydroxide 25000 Kgs 1658988.1 China
Potassium Hydroxide 25000 Kgs 1748618.8 China
Potassium Hydroxide 25000 Kgs 1658988.1 China
Nandini Chemical Journal, November 2015 Page 82
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Potassium Hydroxide 25000 Kgs 1748618.8 China
Potassium Hydroxide 25000 Kgs 1658988.1 China
Potassium Hydroxide 25000 Kgs 1748618.8 China
Potassium Hydroxide 12500 Kgs 898281.38 Korea
Potassium Hydroxide 7500 Kgs 538968.83 Korea
Potassium Hydroxide 7500 Kgs 538968.83 Korea
Potassium Hydroxide 12500 Kgs 898281.38 Korea
Potassium Hydroxide 7500 Kgs 538968.83 Korea
Potassium Hydroxide Solution 45 400 Kgs 25863.47 Germany
Potassium Hydroxide Solution 45 400 Kgs 25863.47 Germany
Potassium Hydroxide Solution 45 400 Kgs 25863.47 Germany
Potassium Nitrate 25 Mts 1400024.1 China
Potassium Nitrate 25 Mts 1400024.1 China
Potassium Nitrate 25 Mts 1400024.1 China
Potassium Titanate 400 Kgs 394800.63 Japan
Potassium Titanate 400 Kgs 394800.63 Japan
Potassium Titanate 400 Kgs 394800.63 Japan
Potassium Titanate 4400 Kgs 2857149.8 Japan
Potassium Titanate 4400 Kgs 2857149.8 Japan
Potassium Titanate 4400 Kgs 2857149.8 Japan
Potassium Titanate 574 200 Kgs 100030.35 Japan
Potassium Titanate 574 200 Kgs 100030.35 Japan
Potassium Titanate 574 200 Kgs 100030.35 Japan
Precipitated Barium Sulfate Super Grade 52000 Kgs 1632768 China
Prepared Calcium Carbonate 32 Mts 1015138.9 Taiwan
Red Iron Oxide 120 Ed 60 Kgs 46652.36 Japan
Silicon Dioxide 1000 Kgs 724745.7 Germany
Silicon Dioxide 4800 Kgs 416208.07 Taiwan
Silicon Dioxide 13200 Kgs 1136593 Taiwan
Silicon Dioxide 13200 Kgs 1136593 Taiwan
Silicon Dioxide 12500 Kgs 879287.06 Germany
Silicon Dioxide 625 Kgs 56825.13 Taiwan
Silicon Dioxide 1875 Kgs 170475.38 Taiwan
Silicon Dioxide P# 4042-00 40 Kgs 12168.91 Germany
Silicon Oxide Powder 1000 Kgs 181970.1 Japan
Slaked Lime 2 (Calcium Hydroxide) 1440 Kgs 30647.6 Japan
Soda Ash - Sodium Carbonate Dense 385625 Kgs 5757380.2 China
Soda Ash - Sodium Carbonate Dense 114375 Kgs 1707618.4 China
Soda Ash - Sodium Carbonate Dense 385625 Kgs 5757380.2 China
Soda Ash - Sodium Carbonate Dense 114375 Kgs 1707618.4 China
Soda Ash ( Sodium Carbonate Dense) 262500 Kgs 4758463.5 Bulgaria
Soda Ash ( Sodium Carbonate Dense) 262500 Kgs 4758463.5 Bulgaria
Soda Ash ( Sodium Carbonate Dense) 262500 Kgs 4758463.5 Bulgaria
Soda Ash ( Sodium Carbonate Dense) 262500 Kgs 4758463.5 Bulgaria
Soda Ash (Sodium Carbonate Dense) 236250 Kgs 4282617.2 Bulgaria
Soda Ash (Sodium Carbonate Dense) 400000 Kgs 5973598.7 China
Soda Ash (Sodium Carbonate Dense) 375000 Kgs 6144787.2 China
Soda Ash (Sodium Carbonate Dense) 500000 Kgs 7467543.8 China
Soda Ash (Sodium Carbonate Dense) 223884 Kgs 4058452.7 Bulgaria
Soda Ash (Sodium Carbonate Dense) 12366 Kgs 224164.42 Bulgaria
Soda Ash (Sodium Carbonate Dense) 500000 Kgs 7464998.6 China
Soda Ash (Sodium Carbonate Dense) 236250 Kgs 4282617.2 Bulgaria
Soda Ash (Sodium Carbonate Dense) 400000 Kgs 5973598.7 China
Soda Ash (Sodium Carbonate Dense) 375000 Kgs 6144787.2 China
Soda Ash (Sodium Carbonate Dense) 500000 Kgs 7467543.8 China
Soda Ash (Sodium Carbonate Dense) 223884 Kgs 4058452.7 Bulgaria
Soda Ash (Sodium Carbonate Dense) 12366 Kgs 224164.42 Bulgaria
Nandini Chemical Journal, November 2015 Page 83
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Soda Ash (Sodium Carbonate Dense) 500000 Kgs 7464998.6 China
Soda Ash Dense 51.81 Mts 905642.43 Ukraine
Soda Ash Dense 137.51 Mts 2403684.4 Ukraine
Soda Ash Dense 51.81 Mts 905642.43 Ukraine
Soda Ash Dense 137.51 Mts 2403684.4 Ukraine
Soda Ash Light 68835 Kgs 959094.19 Russia
Soda Solvay - Sodium Carbonate Dense Soda Ash 340750 Kgs 6176938.8 Bulgaria
Soda Solvay - Sodium Carbonate Dense Soda Ash 158000 Kgs 2864141.8 Bulgaria
Soda Solvay - Sodium Carbonate Dense Soda Ash 340750 Kgs 6176938.8 Bulgaria
Soda Solvay - Sodium Carbonate Dense Soda Ash 158000 Kgs 2864141.8 Bulgaria
Soda Solvay Dense - Sodium Carbonate Dense 236250 Kgs 4282617.2 Bulgaria
Soda Solvay Dense - Sodium Carbonate Dense 236250 Kgs 4282617.2 Bulgaria
Soda Solvay Dense - Sodium Carbonate Dense 262500 Kgs 4758463.5 Bulgaria
Soda Solvay Dense - Sodium Carbonate Dense 262500 Kgs 4758463.5 Bulgaria
Sodium Bicarbonate 324 Mts 5120092.6 China
Sodium Bicarbonate 324 Mts 5120092.6 China
Sodium Bicarbonate 55 Mts 918674.79 China
Sodium Bicarbonate 55 Mts 918674.79 China
Sodium Bicarbonate 70664.6 Kgs 1143724.9 China
Sodium Bicarbonate 70664.6 Kgs 1143724.9 China
Sodium Bicarbonate 172335 Kgs 2789290.9 China
Sodium Bicarbonate 172335 Kgs 2789290.9 China
Sodium Bicarbonate (Industrial Grade) 54000 Kgs 870507.49 China
Sodium Bicarbonate (Industrial Grade) 54000 Kgs 870507.49 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99 % Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99%Min 54 Mts 855824.23 China
Sodium Bicarbonate Industrial Grade 99%Min 54 Mts 855824.23 China
Sodium Boro Hydride 500 Kgs 651253.05 China
Sodium Borohydride 4000 Kgs 5282865.6 USA
Sodium Borohydride 2000 Kgs 2641432.8 USA
Sodium Borohydride 2000 Kgs 2641432.8 USA
Sodium Chlorite 26% 20000 Kgs 763943.8 China
Sodium Chlorite 26% 20000 Kgs 763943.8 China
Sodium Dicyanamide 2800 Kgs 1775984 Switzerland
Sodium Dicyanamide 5200 Kgs 3350776 Switzerland
Sodium Dicyanamide 2800 Kgs 1775984 Switzerland
Sodium Dicyanamide 5200 Kgs 3350776 Switzerland
Sodium Nitrite 50000 Kgs 1492527.5 China
Sodium Nitrite 50000 Kgs 1492527.5 China
Sodium Nitrite 50000 Kgs 1492527.5 China
Sodium Percarbonate 26000 Kgs 807967.68 China
Sodium Percarbonate 26000 Kgs 807967.68 China
Sodium Percarbonate Uncoated 200 Mts 6215136 China
Sodium Percarbonate Uncoated 200 Mts 6215136 China
Sodium Potassium Tartrate 1000 Kgs 269887.92 Spain
Sodium Potassium Tartrate 1000 Kgs 269887.92 Spain
Sodium Silicate Powder Fs-Iv 17000 Kgs 847459.69 China
Sodium Silicate Powder Fs-Iv 1000 Kgs 49850.57 China
Sodium Silicate Powder Fs-Iv 17000 Kgs 847459.69 China
Sodium Silicate Powder Fs-Iv 1000 Kgs 49850.57 China
Sodium Sulphate Anhydrous 99 Percent 188.65 Mts 1160272 China
Sodium Sulphate Anhydrous 99 Percent 188.65 Mts 1160272 China
Nandini Chemical Journal, November 2015 Page 84
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Sodium Tripoly Phosphate Technicalgrade 69330 Kgs 3388812.6 Russia
Sodium Tripoly Phosphate Technicalgrade 69330 Kgs 3388812.6 Russia
Sodium Tripoly Phosphate Technicalgrade 69330 Kgs 3388812.6 Russia
Sodium Tripoly Phosphate Technical Grade 98770 Kgs 4827823.8 Russia
Sodium Tripoly Phosphate Technical Grade 4500 Kgs 219957.55 Russia
Sodium Tripoly Phosphate Technical Grade 75210 Kgs 3676223.8 Russia
Sodium Tripoly Phosphate Technical Grade 98770 Kgs 4827823.8 Russia
Sodium Tripoly Phosphate Technical Grade 4500 Kgs 219957.55 Russia
Sodium Tripoly Phosphate Technical Grade 450 Kgs 21995.75 Russia
Sodium Tripoly Phosphate Technical Grade 75210 Kgs 3676223.8 Russia
Sodium Tripoly Phosphate Technical Grade 124040 Kgs 6063007.6 Russia
Sodium Tripoly Phosphate Technical Grade 97760 Kgs 4778455.5 Russia
Sodium Tripoly Phosphate Technical Grade 123740 Kgs 6169310.6 Ukraine
Sodium Tripoly Phosphate Technical Grade 123420 Kgs 6153356.4 Ukraine
Sodium Tripoly Phosphate Technical Grade 123150 Kgs 6139895 Ukraine
Sodium Tripoly Phosphate Technical Grade 98770 Kgs 4827823.8 Russia
Sodium Tripoly Phosphate Technical Grade 4500 Kgs 219957.55 Russia
Sodium Tripoly Phosphate Technical Grade 450 Kgs 21995.75 Russia
Sodium Tripoly Phosphate Technical Grade 75210 Kgs 3676223.8 Russia
Sodium Tripoly Phosphate Technical Grade 124040 Kgs 6063007.6 Russia
Sodium Tripoly Phosphate Technical Grade 97760 Kgs 4778455.5 Russia
Sodium Tripoly Phosphate Technical Grade 123740 Kgs 6169310.6 Ukraine
Sodium Tripoly Phosphate Technical Grade 123420 Kgs 6153356.4 Ukraine
Sodium Tripoly Phosphate Technical Grade 123150 Kgs 6139895 Ukraine
Sodium Tripolyphosphate 71.95 Mts 3764407.3 Russia
Sodium Tripolyphosphate 71.95 Mts 3764407.3 Russia
Sodium Tripolyphosphate 23.9 Mts 1250442.4 Russia
Sodium Tripolyphosphate 47.8 Mts 2500884.9 Russia
Sodium Tripolyphosphate 23.9 Mts 1250442.4 Russia
Sodium Tripolyphosphate 47.8 Mts 2500884.9 Russia
Sodium Tripolyphosphate Tech Grade 25000 Kgs 1307768.2 China
Sodium Tripolyphosphate Tech Grade 25000 Kgs 1307768.2 China
Sodium Tripolyphosphate: Carfosel 996 10000 Kgs 914335.33 Belgium
Sodium Tripolyphosphate: Carfosel 996 10000 Kgs 914335.33 Belgium
Sodium Tripolyphosphate: Carfosel B940 10000 Kgs 1291583 Belgium
Sodium Tripolyphosphate: Carfosel B940 10000 Kgs 1291583 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2721368.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2721368.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2741568.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2721368.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 10000 Kgs 1305134.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 10000 Kgs 1411184.1 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2721368.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2741568.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 20000 Kgs 2721368.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 10000 Kgs 1305134.2 Belgium
Sodium Tripolyphosphate: Carfosel B940 Food Grade Phosphate 10000 Kgs 1411184.1 Belgium
Sodium Tripolyphosphate: Carfosel B940food Grade Phosphate 10000 Kgs 1305134.2 Belgium
Sodium Tripolyphosphate: Carfosel B940food Grade Phosphate 10000 Kgs 1305134.2 Belgium
Sodium Tripolyphosphate; 10000 Kgs 914335.33 Belgium
Strontium Chromate L203e Graco Code 2000 Kgs 621513.6 France
Sulfax Pmc (Precipitated Sulpher) 560 Kgs 112905.99 Japan
Sulfax Pmc(Precipitated Sulpher) 80 Kgs 17965.38 Japan
Synthetic Iron Oxide Red T-110 40 Mts 3081671.6 China
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Nandini Chemical Journal, November 2015 Page 85
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Ti-Pure Rutile Titanium Dioxide R902+ 4w22 20000 Kgs 3013840 Taiwan
Titanium Di Oxide Rutile Tio2 ( Off Grade ) 10268.5 Kgs 1489717 Singapore
Titanium Dioxide 595 Tiona 20000 Kgs 3237050 USA
Titanium Dioxide 595 Tiona 20000 Kgs 3237050 USA
Titanium Dioxide R-216 (Rutile Grade) 80000 Kgs 9944217.6 China
Titanium Dioxide R-216 (Rutile Grade) 80000 Kgs 9944217.6 China
Titanium Dioxide R-730 20000 Kgs 2650496.5 China
Titanium Dioxide R-730 20000 Kgs 2650496.5 China
Titanium Dioxide Rutile Blr-699 Graco:Pt0665 20000 Kgs 2446447.3 China
Titanium Dioxide Rutile Blr-699 Graco:Pt0665 20000 Kgs 2446447.3 China
Titanium Dioxide Rutile Blr-699 Graco:Pt0665 20000 Kgs 2446447.3 China
Titanium Dioxide Rutile Blr-699 Graco:Pt0665 20000 Kgs 2446447.3 China
Titanium Dioxide Rutile R-F9158 2000 Kgs 292450.55 China
Titanium Dioxide Rutile R-F9158 2000 Kgs 292450.55 China
Titanium Dioxide Rutile Ti-Pure-R900 20000 Kgs 3107568 Taiwan
Titanium Dioxide Rutile Ti-Pure-R900 20000 Kgs 3107568 Taiwan
Titanium Dioxide Rutile Tr 92 40000 Kgs 5697208 Malaysia
Titanium Dioxide Rutile Tr 92 40000 Kgs 5697208 Malaysia
Titanium Dioxide Rutile Type R-60 20000 Kgs 2563743.6 China
Titanium Dioxide Rutile Type R-60 20000 Kgs 2563743.6 China
Titanium Dioxide Rutile Zr-965 (Other Than Food Grade) 1 Mts 128561.39 China
Titanium Dioxide Rutile Zr-965 (Other Than Food Grade) 1 Mts 128561.39 China
Tri Calcium Phosphate-2 3840 Kgs 745816.32 Japan
Tungsten Trioxide 1000 Kgs 1748007 China
Zinc Chloride 24000 Kgs 1755775.9 China
Zinc Oxide 18000 Kgs 2568247.2 Netherlands
Zinc Oxide 240 Kgs 38689.22 Korea
Zinc Oxide 2000 Kgs 287061.59 Korea
Zinc Oxide White Seal- (Uv Grade) 1000 Kgs 160223.88 Thailand
Zinc Stearate (Mi Grade) 21600 Kgs 2209480.9 Korea
Zinc sulphate monohydrate (feed grade) 25 Mts 1336230 China
Zinca#20 (Zinc Oxide) 1000 Kgs 285415.26 Japan
Zno (Special)(Zinc Oxide) 3000 Kgs 526344.33 Korea
CATEGORY: DRUGS
R)-Epichlorohydrin 2070 Kgs 1275076.1 China
(R)-Epichlorohydrin 1150 Kgs 721265.37 China
1,2,4 Triazole 20000 Kgs 5179280 China
1,2,4 Triazole 10000 Kgs 2607820 China
1,2,4 Triazole 10000 Kgs 2607820 China
1h-1,2,4-Triazole 4000 Kgs 1074700.6 China
1h-1,2,4-Triazole 4000 Kgs 1074700.6 China
Amino Guanidine Bicarbonate 3500 Kgs 679780.5 China
Aminoacetonitrile Hydrochloride 2500 Kgs 1432394.6 China
Amoxicillin Trihydrate (Compacted) 5000 Kgs 9453347.5 China
Azithromycin Ip 300 Kgs 1854829.7 China
Azithromycin Ip/Usp 250 Kgs 1553784 China
Benzoltriozole (Bta) Needle 3000 Kgs 1277987.3 China
Benzotriazole (1,2-Aminozophenylene) 125 Kgs 82599.69 Germany
Benzotriazole (Aminozophenylene) 100 Kgs 66079.75 Germany
Chloroform 91600 Kgs 3024440.6 China
Nandini Chemical Journal, November 2015 Page 86
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Chloroform 28400 Kgs 937708.64 China
Chloroform 10200 Kgs 385696.58 UK
Cimetidine Usp 500 Kgs 712151 China
Cimetidine Usp 500 Kgs 712151 China
Ciprofloxacin Hcl 1600 Kgs 2589640 China
Cysteamine Hcl 20000 Kgs 6023020.3 China
Cysteamine Hcl 20000 Kgs 5958256.7 China
Cysteamine Hcl(Flakes) 17193.6 Kgs 5287371.6 China
Erythromycin Bp/Ph Eur Cos 1650 Kgs 9934506.5 Malaysia
Erythromycin Thiocyanate 5994 Kga 19984964 China
Guaiacol 16000 Kgs 5282865.6 China
Guaiacol 12400 Kgs 4103801.7 China
Ibuprofen Grade 75 Usp/Ep 16000 Kgs 10462146 China
Ibuprofen Grade 75 Usp/Ep 16000 Kgs 10462146 China
Ibuprofen Grade 75 Usp/Ep 16000 Kgs 10462146 China
Ibuprofen Grade 75 Usp/Ep 16000 Kgs 10462146 China
Levofloxacin Carboxylic Acid 2000 Kgs 5023901.6 China
Levofloxacin Carboxylic Acid 7500 Kgs 18693964 China
Methyldopa 2000 Kgs 6733064 China
Metronidazole Bp 1600 Kgs 1118724.5 China
Metronidazole Bp 8400 Kgs 5873303.5 China
Ofloxacin Ip/Usp 13.35 Kgs 41486.03 China
Ofloxacin Ip/Usp 236.65 Kgs 735405.97 China
Penicillin G Potassium First Crystal Ip 18000 Kgs 16407959 China
Penicillin G Potassium First Crystal Ip 750 Kgs 683664.96 China
Penicillin G Potassium First Crystal Ip 18000 Kgs 16407959 China
Penicillin G Potassium First Crystal Ip 750 Kgs 683664.96 China
Penicillin G Potassium First Crystal Ip 18000 Kgs 16407959 China
Penicillin G Potassium First Crystal Ip 750 Kgs 683664.96 China
Phenoxymethyl Penicillin Potassium Bp 350 Kgs 634461.8 China
Phenoxymethyl Penicillin Potassium Bp 1650 Kgs 2991034.2 China
Phenoxymethyl Penicillin Potassium Bp 350 Kgs 634461.8 China
Phenoxymethyl Penicillin Potassium Bp 1650 Kgs 2991034.2 China
Polyvinyl Pyrrolidone 5888.2 Kgs 4826092.7 USA
Polyvinyl Pyrrolidone 399.2 Kgs 327192.73 USA
Polyvinyl Pyrrolidone 2495 Kgs 2044954.5 USA
Polyvinyl Pyrrolidone 1497 Kgs 1439221.6 USA
Primellose (Croscarmellose Sodium Usp/Nf, Ph.Eur., Jp.) 8820 Kgs 6266918.7 Netherlands
Primojel (Sodium Starch Glycolate Type A,Usp/Nf,Ph.Eur.,Jp) 450 Kgs 127739.5 Netherlands
Primojel Sodium Starch Glycolate Typea, Usp/Nf 1000 Kgs 310307.35 Netherlands
Pvp K 30 Usp 37 (Polyvinyl Pyrolidone) 13275.6 Kgs 6403097.7 China
Pvp K 30 Usp 37 (Polyvinyl Pyrolidone) 2724.39 Kgs 1314029.5 China
Pvp K30 Usp26 (Polyvinyl Pyrolidone) 8000 Kgs 3185257.2 China
Pyrrolydine 3740 Kgs 1404361.8 Netherlands
Resorcinol 16000 Kgs 4921349.2 Japan
Sodium Alginate 36000 Kgs 11443619 China
Sorbitol Special Mdf 85 Sorbital Sorbitan Solution Nf (Foc) 272.2 Kgs 103003.95 USA
Sorbitol Special Sorbitol Liquid Part Dehyd Ph Eur (Foc) 272.2 Kgs 133477.44 USA
Zidovudine Usp 6804.4 Kgs 99117824 China
Zinc Salt Of 2- Mercaptobenzimidazole Nocrac Mbz 40 Kgs 50517.63 Japan
CATGORY: DYE STUFF
Coram Black Conc Liquid Dyes 288 Ltr 107432.89 Italy
Coram T Blacks Liquid Dyes 60 Ltr 29629.31 Italy
Coram T Blue Liquid Dyes 60 Ltr 43484.74 Italy
Nandini Chemical Journal, November 2015 Page 87
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Coram T Fuxia Liquid Dyes 36 Ltr 26261.2 Italy
Coram T Turquoise Liquid Dyes 60 Ltr 38155.73 Italy
Dianix Black Etd 300% 01 ( Dyes) 75 Kgs 42729.06 Singapore
Dianix Crimson Sf ( Dyes) 25 Kgs 58266.9 Singapore
Dianix Orange Plus ( Dyes) 50 Kgs 36578.66 Singapore
Dianix Royal Blue Cc ( Dyes) 25 Kgs 40463.12 Singapore
Dianix Royal Blue Cc ( Dyes) 75 Kgs 121389.37 Singapore
Dianix Rubine Un-Se ( Dyes) 150 Kgs 134013.87 Singapore
Dianix Turquoise S-Bg ( Dyes) 50 Kgs 126244.95 Singapore
Dianix Turquoise Xf (Textile/Leather & Chemical Dyes) 75 Kgs 201260.11 Singapore
Dianix Yellow Un-Se 200% 01 ( Dyes) 100 Kgs 104880.42 Singapore
Finicolor C 3213/316 Nero ( Liquid Dyes) 120 Kgs 36044.48 Italy
Finicolor C 3213/373 M.Sc ( Liquid Dyes) 120 Kgs 35941.05 Italy
Finicolor T 3215/55 Neutro ( Liquid Dyes) 360 Kgs 97616.79 Italy
Illoderm Bruno Cs 50 Liquid Dyes 250 Kgs 183648.42 Italy
Indinor Brown 189 (Liquid Dyes) 25 Kgs 24762.14 Portugal
Indinor Yellow 130 (Liquid Dyes) 25 Kgs 23216.73 Portugal
Ingrasso Liquido 7421 ( Liquid Dyes ) 120 Kgs 26824.08 Italy
Invaderm Lu (Dye Leveling Agent) 3600 Kgs 412222.82 France
Invaderm Sn (Dye Leveling Agent) 1800 Kgs 186874.34 France
Katiolux Black (Liquid Dyes) 500 Kgs 407123.23 Italy
Katiolux Black K (Liquid Dyes) 100 Kgs 76145.78 Italy
Katiolux Bordeaux (Liquid Dyes) 25 Kgs 20500.79 Italy
Katiolux Brown (Liquid Dyes) 100 Kgs 87065.07 Italy
Katiolux Fuxia (Liquid Dyes) 25 Kgs 12654.81 Italy
Katiolux Green (Liquid Dyes) 25 Kgs 25779.65 Italy
Katiolux Lemon (Liquid Dyes) 25 Kgs 24459.93 Italy
Katiolux Orange(Liquid Dyes) 50 Kgs 44870.33 Italy
Levafix Brilliant Yellow Ca Gran (Dyes) 200 Kgs 317230.9 Singapore
Levafix Red Ca Gran (Dyes) 50 Kgs 105204.12 Singapore
Levafix Scarlet Ca-N ( Dyes) 100 Kgs 142430.2 Singapore
Liquid Dyes (Katiolux Blue) 75 Kgs 74885.23 Italy
Liquid Dyes (Katiolux Turquoise) 75 Kgs 72099.56 Italy
Liquid Dyes (Luxocolor Black ) 1200 Kgs 219046.6 Italy
Liquid Dyes (Luxocolor Black Lh) 75 Kgs 35503.57 Italy
Liquid Dyes (Luxocolor Black) 1000 Kgs 182069.61 Italy
Liquid Dyes (Luxocolor Blue Lb) 50 Kgs 20573.87 Italy
Liquid Dyes (Luxocolor Blue Lm) 100 Kgs 42240.15 Italy
Liquid Dyes (Luxocolor Brown Lg) 50 Kgs 18935.24 Italy
Liquid Dyes (Luxocolor Brown Lr) 50 Kgs 21629.87 Italy
Liquid Dyes (Luxocolor Brown Ls) 200 Kgs 94676.2 Italy
Liquid Dyes (Luxocolor Fuxia Lu) 50 Kgs 29859.42 Italy
Liquid Dyes (Luxocolor Lemon Ll) 100 Kgs 46391.34 Italy
Liquid Dyes (Luxocolor Orange La) 100 Kgs 45663.06 Italy
Liquid Dyes (Luxocolor Red Ld) 25 Kgs 12890.53 Italy
Liquid Dyes (Luxocolor Rubine Lo) 150 Kgs 65435.82 Italy
Liquid Dyes (Luxocolor Turquoise Lf) 100 Kgs 60228.63 Italy
Liquid Dyes (Luxolin Black ) 150 Kgs 63085.42 Italy
Liquid Dyes (Luxolin Black N) 300 Kgs 156837.36 Italy
Liquid Dyes (Luxolin Green ) 100 Kgs 60420.53 Italy
Liquid Dyes (Luxolin Lemon ) 100 Kgs 74528.5 Italy
Nandini Chemical Journal, November 2015 Page 88
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Luxocolor Black (Liquid Dyes) 300 Kgs 52371.4 Italy
Luxocolor Blue Lm (Liquid Dyes) 50 Kgs 21542.85 Italy
Luxocolor Brown Lr (Liquid Dyes) 50 Kgs 22062.85 Italy
Luxocolor Orange La (Liquid Dyes) 50 Kgs 23288.56 Italy
Luxocolor Red Ld (Liquid Dyes) 25 Kgs 13148.56 Italy
Luxocolor Turquoise Lf (Liquid Dyes) 50 Kgs 30717.13 Italy
Luxocolor Yellow Lc (Liquid Dyes) 50 Kgs 19425.7 Italy
Luxolin Brown R (Liquid Dyes) 50 Kgs 34542.84 Italy
Luxolin Light Blue (Liquid Dyes) 25 Kgs 16138.56 Italy
Luxolin Yellow (Liquid Dyes) 50 Kgs 31942.84 Italy
Melioderm Brown D2gl P (Dyes) 475 Kgs 233890.36 Spain
Melioderm Hf Dark Brown R P( Dyes) 800 Kgs 294445.7 Spain
Miketon P Black Pbsf U/C ( Dyes) 200 Kgs 145019.84 Singapore
Nero Ln (Dyes Acid Black) 215 Kgs 113376.39 Italy
Nero Ln(Dyes Acid Black) 1785 Kgs 941287.71 Italy
Nubio Opaco 2233/313 ( Liquid Dyes) 150 Kgs 44647.27 Italy
Nubio Opaco 2233/316 Nero ( Liquid Dyes) 500 Kgs 148824.23 Italy
Nubio Opaco 2233/317 Bianco ( Liquid Dyes) 100 Kgs 32666.92 Italy
Nubio Opaco 2233/55 Neutro ( Liquid Dyes) 300 Kgs 89294.54 Italy
Nubio Opaco 2233/55 Neutro ( Liquid Dyes) 200 Kgs 56702.03 Italy
Sella Derm Black M2 (Liquid Dyes) 350 Kgs 223531.8 Italy
Sella Derm Brown M2 (Liquid Dyes) 150 Kgs 120819.88 Italy
Sella Fast Beige E (Acid Dyes) 60 Kgs 14198.79 France
Supronil Hk Black Wliq 0030 (Liquid Dyes) 3690 Kgs 721015.39 Spain
Supronil Hk Light Brown 01(Liquid Dyes) 25 Kgs 9059.32 Spain
Supronil Hk Red Brown. B (Liquid Dyes ) 75 Kgs 22754.88 Spain
Supronil Hk Red. A Liq(Liquid Dyes ) 175 Kgs 174951.48 Spain
Supronil Hk Yellow 01(Liquid Dyes ) 450 Kgs 131733.19 Spain
Supronil Hk Yellow Brown (Liquid Dyes ) 250 Kgs 81533.89 Spain
Telanil Black (Liquid Dyes) 300 Kgs 143253.86 Germany
Telanil Deep Black (Liquid Dyes) 120 Kgs 81732.43 Germany
Telanil Green (Liquid Dyes) 30 Kgs 26318.73 Germany
Telanil Lemon (Liquid Dyes) 30 Kgs 19544.71 Germany
Telanil Navy Blue (Liquid Dyes) 30 Kgs 21321.5 Germany
Telanil Orange (Liquid Dyes) 30 Kgs 20877.31 Germany
Telanil Red (Liquid Dyes) 90 Kgs 82953.98 Germany
Telanil Red Brown (Liquid Dyes) 90 Kgs 80288.79 Germany
CATEGORY: FABRIC, FIBRE & YARN
Nylon 6 Chips 150 Mts 19422300 Russia
Nylon 6 Chips (H95xc-Bpl) 2004.1 Kgs 261307.27 USA
Nylon 6 Chips (H95xc-Bpl) 2004.1 Kgs 261307.27 USA
Nylon 6 Chips (H95xc-Bpl) 2004.1 Kgs 261307.27 USA
Nylon 6 Chips (Pa6) 7100 Kgs 1000728.2 Russia
Nylon 6 Chips (Pa6) 17900 Kgs 2522962.6 Russia
Nylon 6 Chips (Pa6) 75000 Kgs 10571072 Russia
Nylon 6 Chips Domamid 24 47973 Kgs 6056349 Germany
Nylon 6 Chips Grade H95zit - Bpl 5000 Kgs 661257.55 Taiwan
Nylon 6 Chips Grade H95zit - Bpl 5000 Kgs 661257.55 Taiwan
Nylon 6 Chips Grade H95zit - Bpl 10000 Kgs 1322515.1 Taiwan
Nandini Chemical Journal, November 2015 Page 89
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Nylon 6 Chips Ultramid B33 09 16200 Kgs 1997391.2 China
Nylon 6 Chips-Near Prime - Ep 811 60000 Kgs 7030872.6 China
Nylon 6 Chips-Near Prime - Ep 811 5000 Kgs 585906.05 China
Nylon 6 Chips-Near Prime - Ep 811 5000 Kgs 585906.05 China
Nylon 6 Chips-Near Prime - Ep 811 5000 Kgs 585906.05 China
Nylon 6/66 Co Polymer Chips Ultramid C40 Lx 07 (Nylon Chips) 15000 Kgs 2816233.5 Germany
Nylon 66 Chips 7500 Kgs 1238171.6 Korea
Nylon 66 Chips 7500 Kgs 1238171.6 Korea
Nylon 66 High Tenacity 210 3360 Kgs 1283425.6 Korea
Nylon Moulding Granules 1000 Kgs 1258565 France
Nylon Multifilament Yarn 24012 Kgs 4275042.5 Thailand
Nylon Multifilament Yarn 24012 Kgs 4275042.5 Thailand
Nylon Multifilament Yarn 21420 Kgs 3882906.2 Taiwan
Nylon Multifilament Yarn 420d 975.6 Kgs 164219.43 China
Nylon Multifilament Yarn 420d 8427.5 Kgs 1424105.1 China
Nylon Multifilament Yarn 630d 18891.6 Kgs 3179958.8 China
Nylon-6 (Rp) Black Colour Chips 15000 Kgs 1456847.3 Thailand
Nylon-66 (Rp) Black Colour Chips- 4500 Kgs 597307.39 Thailand
Stanyl #Te250f6 00001 (Pa46 Nylon 30% Gf Natural Ul94v-0) 1000 Kgs 519870.23 China
CATEGORY: METAL
Chromium Metal -Ddb 907 Kgs 994241.45 UK
Chromium Metal -Ddb 414 Kgs 453821.34 UK
Chromium Metal -Ddb 334 Kgs 366126.4 UK
Lead Ingots 100.059 Mts 12460227 Indonesia
Lead Ingots 96.024 Mts 11821098 Indonesia
Pure Lead (Pb;99.99%Min)( 197.904 Mts 25872800 Korea
Pure Lead 99.97% Min In Ingots 340.31 Mts 43190230 Australia
Pure Lead 99.97% Min In Ingots 379.52 Mts 48166542 Australia
Pure Lead Ingots 100750 Kgs 13262777 Korea
Pure Lead Ingots 22684.4 Kgs 2889491.6 Korea
Pure Lead Ingots 77982.6 Kgs 9933261.2 Korea
Selenium Metal Granule (Se: 99.95%Min) 384.08 Kgs 775841.6 Korea
Selenium Metal Granule(Se 99.95% Min) 500 Kgs 874003.5 Korea
Silicon 2.1 Mts 243361.42 China
Silicon 6.09 Mts 705748.12 China
Silicon 1.47 Mts 170352.99 China
Silicon 8.649 Mts 1002301.4 China
Silicon 0.63 Mts 73008.43 China
Silicon 1.89 Mts 219025.28 China
Silicon 1.05 Mts 121680.71 China
Silicon 2.1 Mts 243361.42 China
Silicon 0.021 Mts 2433.61 China
Silicon Metal 11253.1 Kgs 1358721.4 China
Silicon Metal 123.33 Kgs 14891.11 China
Silicon Metal 36623.6 Kgs 4422001.8 China
Silicon Metal (5.5.3) 26 Kgs 16459.46 UK
Silicon Metal 441 24 Mts 2905576.1 China
Silicon Metal 553 24 Mts 2812349 China
Silicon Metal 553 24 Mts 2781273.4 China
Sodium Metal 12000 Kgs 1689740.1 China
Sodium Metal 12000 Kgs 1689740.1 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Nandini Chemical Journal, November 2015 Page 90
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1721161.2 China
Sodium Metal 12000 Kgs 1721161.2 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1721161.2 China
Sodium Metal 12000 Kgs 1721161.2 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 990 Kgs 141005.9 China
Sodium Metal 9010 Kgs 1283296.1 China
Sodium Metal 990 Kgs 141005.9 China
Sodium Metal 9010 Kgs 1283296.1 China
Sodium Metal 23100 Kgs 3177973.8 France
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 23100 Kgs 3177973.8 France
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1709162.4 China
Sodium Metal 12000 Kgs 1864587.4 China
Sodium Metal 12000 Kgs 1864587.4 China
Sodium Metal 12000 Kgs 1864587.4 China
Zinc Ingots(Lme Regd & Az Brand) 24.997 Mts 3490739.5 Australia
CATEGORY: PAINT
Automotive Splendor Russet A-660k-Sp (Pearl Pigment) 500 Kgs 1076319.1 Korea
Bayferrox 110(Iron Oxide Pigment) 15000 Kgs 1187906.7 Germany
Bayferrox 120 Nm(Iron Oxide Pigment) 1000 Kgs 169447.91 Germany
Indinor Black 3402 (Pigments) 90 Kgs 17521.79 Portugal
Indinor Brown 3466 (Pigments) 30 Kgs 10210.39 Portugal
Indinor Brown 3468 (Pigments) 30 Kgs 9997.23 Portugal
Indinor White 3401 (Pigments) 60 Kgs 17905.48 Portugal
Indinor Yellow 3428 (Pigments) 30 Kgs 7993.52 Portugal
Iox R 01(Iron Oxide Pigment) 2000 Kgs 121713.08 Germany
Iox R 02(Iron Oxide Pigment) 1000 Kgs 59561.72 Germany
Iox R 03(Iron Oxide Pigment) 1000 Kgs 58914.31 Germany
Katioderm Blue T (Pigments) 30 Kgs 10846.98 Italy
Langropur Bordo (Pigments) 150 Kgs 156024.55 Germany
Langropur Mocha (Pigments) 150 Kgs 54969.5 Germany
Langropur Ochre (Pigments) 90 Kgs 29650.22 Germany
Langropur Orange (Pigments) 90 Kgs 87618.06 Germany
Langropur White (Pigments) 600 Kgs 286507.71 Germany
Langropur Yellow (Pigments) 150 Kgs 102165.54 Germany
Microsperse Iii Napthol Red - Rmw0201-06 ( Pigments) 1633 Kgs 964915.52 USA
Mikroderm Deepblack Pigment 60 Kgs 12533.84 Italy
Nubicoat Hwr (Inorganic Pigments) 3000 Kgs 955763.64 Spain
Nubix G-58(Inorganic Pigments) 9000 Kgs 2003845.4 Spain
Nubix H-55(Inorganic Pigments) 3000 Kgs 667948.45 Spain
Pigmacolor Fluor Orange Lf (Textile Pigments) 30 Kgs 21006.28 Turkey
Pigmacolor Fluor Pink L (Textile Pigments) 300 Kgs 96813.3 Turkey
Pigmacolor Fluor Pink Lf (Textile Pigments) 60 Kgs 42012.56 Turkey
Pigmacolor Fluor Purple Lf (Textile Pigments) 10 Kgs 7002.09 Turkey
Pigmacolor Navy Krn (Textile Pigments) 60 Kgs 35077.28 Turkey
Pigmacolor Red Violet K5b(Textile Pigments) 120 Kgs 57887.54 Turkey
Nandini Chemical Journal, November 2015 Page 91
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Pigmacolor Violet Krlm (Textile Pigments) 30 Kgs 38484.79 Turkey
Pp-25-815 (60) (Camotex) (Pigments) 660 Kgs 70418.24 Singapore
Pp-25-824 ( 60) (Camotex) (Pigment) 2400 Kgs 346853.46 Singapore
Pp-25-824 ( 60) (Camotex) (Pigment) 240 Kgs 34685.35 Singapore
Pp-25-824 ( 60) (Camotex) (Pigment) 180 Kgs 26014.01 Singapore
Pp-25-824 ( 60) (Camotex) (Pigment) 2400 Kgs 346853.46 Singapore
Roda Cor Hit Red Brown (Pigment) 70 Kgs 30032.15 Italy
Roda Cor Htp Dark Broen (Pigment) 105 Kgs 50018.53 Italy
Roda Cor Htp Fuchsia (Pigment) 60 Kgs 33135.3 Italy
Roda Cor Htp Green (Pigment) 90 Kgs 37733.67 Italy
Roda Cor Htp Lemon (Pigment) 60 Kgs 19385.28 Italy
Roda Cor Htp Ochre (Pigment) 140 Kgs 57750.1 Italy
Roda Cor Htp Orange (Pigment) 60 Kgs 31647.59 Italy
Roda Cor Htp Red (Pigment) 30 Kgs 8903.7 Italy
Roda Cor Htp Yellow (Pigment) 60 Kgs 27770.54 Italy
Roda Kp Dark Brown (Pigment) 120 Kgs 25336.11 Italy
Titanium Dioxide Rutile Tioxide Tr92 (Pigments) 10000 Kgs 1687205 Malaysia
CATEGORY: PLASTIC
Ambicure Compound Le4423 (Lldpe) 22000 Kgs 2421313.4 Sweden
Ambicure Compound Le4423 (Lldpe) 22000 Kgs 2421313.4 Sweden
Biaxially Oriented Polyethylene Terepthalate Film 1988.8 Kgs 191847.78 China
Biaxially Oriented Polyethylene Terepthalate Film 9405 Kgs 907244.77 China
Biaxially Oriented Polyethylene Terepthalate Film 1914.1 Kgs 184641.91 China
Biaxially Oriented Polyethylene Terepthalate Film 2944.7 Kgs 284057.81 China
Biaxially Oriented Polyethylene Terepthalate Film 1784.3 Kgs 172120.88 China
Biaxially Oriented Polyethylene Terepthalate Film 1853.6 Kgs 178805.84 China
Biaxially Oriented Polyethylene Terepthalate Film 4496.1 Kgs 433712.2 China
Biaxially Oriented Polyethylene Terepthalate Film 4145 Kgs 399843.65 China
Biaxially Oriented Polyethylene Terepthalate Film 5305.5 Kgs 511790.23 China
Biaxially Oriented Polyethylene Terepthalate Film 3631.9 Kgs 350347.93 China
Biaxially Oriented Polyethylene Terepthalate Film 2750.7 Kgs 265343.77 China
Biaxially Oriented Polyethylene Terepthalate Film 4432.7 Kgs 427596.37 China
Biaxially Oriented Polyethylene Terepthalate Film 3933.5 Kgs 379441.5 China
Exceed 1018ha (Metallocene Lldpe) 68750 Kgs 6765434.5 Singapore
Exceed 1018ha (Metallocene Lldpe) 97080.1 Kgs 9590554.7 Singapore
Exceed 1018ha (Metallocene Lldpe) 12919.9 Kgs 1276358.5 Singapore
Expanded Polypropylene Beads Arpro5319-30p W 1560 Kgs 515079.4 Singapore
Expanded Polypropylene Beads Arpro5319-30p W 1560 Kgs 515079.4 Singapore
Expanded Polypropylene Beads Arpro5319-30p W 1561 Kgs 515409.58 Singapore
Exxonmobil Ap3aw Propylene Copolymers 48 Mts 4412746.6 Singapore
Exxonmobil Ap3aw Propylene Copolymers 120 Mts 11031866 Singapore
Exxonmobil Hta001hd ( High Density Polyethylene ) 51 Mts 4457417.9 Saudi arabia
Exxonmobil Ld 150 Ac - Ldpe 24750 Kgs 2296707.8 Saudi arabia
Exxonmobil Ld 160 At - Ldpe 16500 Kgs 1495517.1 Saudi arabia
Exxonmobil Pp3155e3 / 5211675 / Polypropylene(Pp)/ 48 Mts 4101989.8 Singapore
Glass Filled Polypropylene 1428.81 Kgs 230458.65 USA
Hdpe Sabic F00952 17 Mts 1584859.7 Saudi arabia
Hdpe-2200j:80bag 1000 Kgs 112168.43 Korea
High density polyethylene 16500 Kgs 1410059 UAE
High density polyethylene 49.5 Mts 4679407 UAE
High Density Polyethylene 21400 Kgs 4714287.3 Poland
High Density Polyethylene (Hdpe) 112000 Kgs 9970114 Qatar
High Density Polyethylene (Hdpe) 128 Mts 12347404 Qatar
Nandini Chemical Journal, November 2015 Page 92
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
High Density Polyethylene (Hdpe) 32 Mts 3052543.2 Qatar
High Density Polyethylene Grade: Fb1460 7618.8 Kgs 621493.4 UAE
High Density Polyethylene Grade: Fb1460 74881.2 Kgs 6108333.6 UAE
High Density Polyethylene Grade: Fb1460 82500 Kgs 6729827 UAE
High Density Polyethylene Grade: Fb1460 49500 Kgs 4037896.2 UAE
High Density Polyethylene Hb111r 3800 Kgs 332971.45 Japan
High Density Polyethylene Hb111r 20000 Kgs 1752481.3 Japan
High Density Polyethylene Hb111r 25200 Kgs 2246471.2 Japan
High Density Polyethylene Hj221 2000 Kgs 193096.15 Japan
Ldpe Granules Nearprime 74250 Kgs 5773220.6 Saudi arabia
Ldpe Reporcessed Granules 52000 Kgs 2927788.7 Malaysia
Ldpe Reprocessed Granules 99.9 Mts 5629098.2 Malaysia
Ldpe Titanlene Ldc801yy 16500 Kgs 1645282.5 Malaysia
Ldpe Titanlene Ldc801yy 33 Mts 3204679.5 Malaysia
Linear Low Density Polyethelene (Lldpe) Lotrene Q1018h 5500 Kgs 537862.88 Qatar
Linear low density polyethylene 16500 Kgs 1442105.8 UAE
Linear low density polyethylene 16.5 Mts 1442105.8 UAE
Linear low density polyethylene 16.5 Mts 1442105.8 UAE
Linear low density polyethylene 16.5 Mts 1442105.8 UAE
Linear Low Density Polyethylene (Lldpe) "Lotrene" Q1018h 17250 Kgs 1569079.1 Qatar
Linear Low Density Polyethylene (Lldpe) "Lotrene" Q1018h 17250 Kgs 1507656 Qatar
Linear Low Density Polyethylene Grade: 10000 Kgs 960908.75 Thailand
Linear Low Density Polyethylene Granules 24750 Kgs 2499650 Singapore
Liner Low Density Polyethylene Adtex Ft71a 2800 Kgs 528745.64 Japan
Lldpe Exceed 1018ka 4.3033 Mts 403969.92 Singapore
Lldpe Exceed 1018ka 26.36 Mts 2474530.5 Singapore
Lldpe Exceed 1018ka 18.8367 Mts 1768284.9 Singapore
Lldpe Exceed 1018ka 49.5 Mts 4871112.8 Singapore
Lldpe Exceed 1018ka 49.5 Mts 4871112.8 Singapore
Lldpe Exceed 1018ka 3.082 Mts 303288.28 Singapore
Lldpe Exceed 1018ka 46.418 Mts 4567824.6 Singapore
Lldpe Exceed 1018ka 13.75 Mts 1353086.9 Singapore
Lldpe Exceed 1018ka 13.75 Mts 1353086.9 Singapore
Lldpe Exceed 1018ka 13.75 Mts 1395693.8 Singapore
Lldpe Exxonmobil Ll1001kw 96 Mts 8328282.2 Singapore
Lldpe Granules (Linear Low Density Polyethylene Grade: 118w) 24750 Kgs 2432992.7 Saudi arabia
Lldpe Granules (Linear Low Density Polyethylene Grade: 118w) 24750 Kgs 2432992.7 Saudi arabia
Lldpe Granules Virgin 24750 Kgs 2289444.4 Malaysia
Lldpe Granules Virgin Grade 7087 24750 Kgs 2337172.8 Malaysia
Lldpe Recycled Granules 135 Mts 7223406.9 Malaysia
Lldpe Recycled Granules 81 Mts 4433602.6 Malaysia
Lldpe Reprocessed Granules 106.5 Mts 5650269.6 Malaysia
Lldpe Reprocessed Granules 80 Mts 4404902.9 Malaysia
Lldpe Sabic 118w 24750 Kgs 2291345.8 Saudi arabia
Lldpe Sabic 118w (Linear Low Density Polyethylene) 34000 Kgs 3147707.4 Saudi arabia
Lldpe Sabic 118w (Lldpe Granules ) 24750 Kgs 2418892.1 Saudi arabia
Lldpe Sabic 118w (Lldpe Granules ) 34000 Kgs 3147707.4 Saudi arabia
Lldpe Substandard Ll1999ss 72 Mts 5966530.6 Singapore
Low Density Polyethylene - Ld 4025as 17000 Kgs 1650895.5 Saudi arabia
Low Density Polyethylene (Ldpe) "Lotrene" Fe3000 25500 Kgs 2228708.9 Qatar
Low Density Polyethylene (Ldpe) "Lotrene" Fe3000 16.5 Mts 1506711.8 Qatar
Low Density Polyethylene (Ldpe) "Lotrene"Fb5026 16500 Kgs 1452788 Qatar
Low Density Polyethylene (Ldpe) "Lotrene"Fb5026 Granules 9.25 Mts 814441.78 Qatar
Low Density Polyethylene (Ldpe) "Lotrene"Fb5026 Granules 2.61 Mts 229804.65 Qatar
Low Density Polyethylene (Ldpe) "Lotrene"Fb5026 Granules 4.64 Mts 408541.61 Qatar
Low Density Polyethylene (Ldpe) Lotrene Fe8004 16500 Kgs 1500858.2 Qatar
Low Density Polyethylene (Ldpe) Lotrene Fe8004 4000 Kgs 363844.42 Qatar
Nandini Chemical Journal, November 2015 Page 93
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Lupolen 4261ag In 750 Kg Bag (Hdpe) 72000 Kgs 7169159.4 Korea
Polypropylene 16.5 Mts 1399376.7 UAE
Polypropylene 225 Kgs 31595 Thailand
Polypropylene 85000 Kgs 8101340.5 Korea
Polypropylene 1000 Kgs 177001.89 Korea
Polypropylene 17000 Kgs 1409692.6 Korea
Polypropylene 8000 Kgs 699586.92 Korea
Polypropylene Bi870 16000 Kgs 1653248.8 Korea
Polypropylene Bi870 6000 Kgs 619968.3 Korea
Polypropylene Bi870 13000 Kgs 1343264.7 Korea
Polypropylene (Bx 3920) 84000 Kgs 8062173.8 Korea
Polypropylene Bi870 34000 Kgs 3338200 Korea
Polypropylene Bi870 32000 Kgs 3134500.3 Korea
Polypropylene Copolymer ( Bj368mo) 27675 Kgs 2374277.6 UAE
Polypropylene Copolymer ( Bj368mo) 358 Kgs 30713.33 UAE
Polypropylene Copolymer ( Bj368mo) 998 Kgs 85619.84 UAE
Polypropylene Copolymer ( Bj368mo) 38935 Kgs 3340288.9 UAE
Polypropylene Copolymer ( Bj368mo) 14534 Kgs 1246892.5 UAE
Polypropylene Copolymer (B 380g) 34000 Kgs 3126912.9 Korea
Polypropylene Copolymer Recyled Granules Ppcp 1000 Kgs 76818.26 Malaysia
Polypropylene Grade Titanpro Sm 598 16500 Kgs 1591657.5 Malaysia
Polypropylene Grade: 48000 Kgs 4164141.1 Singapore
Polypropylene Grade: Adstif Ea5076 19000 Kgs 1923413.7 Korea
Polypropylene Grade: Bi870 68000 Kgs 6163343.2 Korea
Polypropylene Granules (Grade Ra130e) 49.5 Mts 4518598.1 UAE
Polypropylene Plastic Granules 12216 Kgs 1714905.5 Australia
Polypropylene70% + Glass Filler 30%) 1000 Kgs 98445.21 Korea
Polypropylene70% + Glass Filler 30%) 4500 Kgs 439915.1 Korea
Polypropylene70% + Glass Filler 30%) 13000 Kgs 1270865.8 Korea
Polypropylene80%+Talc Filler20% 3000 Kgs 223356.45 Korea
Polypropylene80%+Talc Filler20% 5500 Kgs 398018.53 Korea
Polypropylene80%+Talc Filler20% 16000 Kgs 1149800.2 Korea
Pp Reprocessed Chips (Polypropylene) 26850 Kgs 1329796.3 Malaysia
Reinforced Polypropylene Grade:85012-40 15000 Kgs 1878845.4 China
Reprocessed Ldpe Granules 84000 Kgs 4733857.9 Malaysia
Reprocessed Lldpe Plastic Granules 42 Mts 2311253.7 Malaysia
CATEGORY: RESIN
Abs Resin Gp-Toyolac 18000 Kgs 2272409.1 Malaysia
Abs Resin Gp-Toyolac 54000 Kgs 6817227.3 Malaysia
Abs Resin Gp-Toyolac 36000 Kgs 4544818.2 Malaysia
Abs Resin Mp-0160 R 2000 Kgs 273207.02 Korea
Abs Resin Mp-0160r 2000 Kgs 273207.02 Korea
Acrylic Resin - Acrydic Cp-4-Rt ( 3800 Kgs 794631.03 Thailand
Acrylic Resin (Wad-308) ( 672 Kgs 341689.37 Taiwan
Acrylonitrile Butadiene Styrene Resin 12000 Kgs 2058763.8 Korea
CPVC Resin J700 18000 Kgs 2035845.5 China
CPVC Resin Fitting Grade 18000 Kgs 2035845.5 China
Cycolac Abs Resin X17-Wh8g013 10000 Kgs 2214142.2 Singapore
D10751857 - Zytel(R) 101l Nc010 (Nylon Chips) 12000 Kgs 1918923.2 Singapore
D10751857 - Zytel(R) 101l Nc010 25 Kg Bag Nylon Resin 12000 Kgs 1918923.2 Singapore
D10786445 - Zytel(R) 45hsb Nc010 (Polyamides) 1000 Kgs 264143.28 USA
D10787054 -Zytel(R) E51hsb Nc010 Nylon Resin 18000 Kgs 4319877.1 USA
D10790470 - Zytel(R)70g33gra Bk350 Nylon Resin ( 1000 Kgs 347011.76 Korea
D10793004 - Zytel(R) 70g30hsl Nc010 Nylon Resin 6000 Kgs 1064342 China
Nandini Chemical Journal, November 2015 Page 94
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
D10793369 - Zytel(R) 70g43l Nc010 Nylon Resin 6000 Kgs 1029381.9 China
D10795990 - Zytel(R) Fr72g25v0 Nc010 Nylon Resin 1000 Kgs 333416.15 China
D10796642 - Zytel(R) Fr50 Nc010 Nylon Resin 3000 Kgs 792429.84 USA
D10810516 - Zytel(R) 70g33l Nc010 Nylon Resin 2000 Kgs 326294.64 China
D10919895 - Zytel(R) Mt409ahs Nc010 Nylon Resin 4000 Kgs 807967.68 China
D11077430 - Zytel(R) 3189hsl Bkb010 Nylon Resin 10000 Kgs 2537847.2 Korea
D11078137 - Zytel(R) 45hsb Bkb038 Nylon Resin 1000 Kgs 252489.9 Korea
D12544022 - Zytel(R) Htnfr52g30nh Nc010 Nylon Resin 1000 Kgs 287450.04 China
Dowlex 2045g - Polyethylene Resin 24750 Kgs 2419533 Thailand
Elite * 5400 G Enhanced Polyethylene Resin 16500 Kgs 1698480.1 Thailand
Elite 5401 G Enhanced Polyethylene Resin Granules 16.5 Mts 1640169.3 Thailand
Elite 5401 G Enhanced Polyethylene Resin Granules 16.5 Mts 1758865.8 Thailand
Elite*5401 G Enhanced Polyethylene Resin 16500 Kgs 1698480.1 Thailand
Elite*5401 G Enhanced Polyethylene Resin 16500 Kgs 1698480.1 Thailand
Eval Resin F101a 7000 Kgs 2415486.7 USA
Eval Resin F101a 7000 Kgs 2415486.7 USA
High Density Polyethylene Resin 544000 Kgs 51772083 Taiwan
K Resin Styrene Butadiene Copolymer 18 Mts 2423903 Korea
Low Density Polyethylene Resin 34.5 Mts 3493857.7 Thailand
Low Density Polyethylene Resin 34.5 Mts 3484360.6 Thailand
Marlex High Density Polyethylene Resin Hhm 5502bn 96 Mts 8143615.9 Saudi arabia
Marlex High Density Polyethylene Resin Hhm Tr-144 32 Mts 2714538.6 Saudi arabia
Marlex High Density Polyethylene Resin Hhm Tr-144 64 Mts 5429077.2 Saudi arabia
Marlex High Density Polyethylene Resin Hhm Tr-144 41.6821 Mts 3535862.2 Saudi arabia
Marlex High Density Polyethylene Resin Hhm Tr-144 6.31793 Mts 535945.78 Saudi arabia
Nylon polyamide 6 resin 1013b 3000 Kgs 446712.9 Thailand
Nylon polyamide 6 resin 1013nw8 3000 Kgs 466135.2 Thailand
Nylon polyamide 6 resin 1022t 10000 Kgs 1463146.6 Thailand
PET Resin Polyester Chips (PET Jade Cz 302 ) 19.8 Mts 1695890.4 China
Polymethyl Methacrylate 100 Kgs 16877.98 Korea
Polymethyl Methacrylate 15000 Kgs 2531696.8 Korea
Poly Acetal Resin 400 Kgs 107582.76 Korea
Polyamide Resin- 3000 Kgs 541805.29 Thailand
Polyamide Resin Nylon 6 - 1013nw8 9500 Kgs 1445342.8 Thailand
Polyamide Resin Nylon 6 - 1022b 500 Kgs 79307.73 Thailand
Polyamide Resin Nylon 6 - 1022b10 3995 Kgs 581940.66 Thailand
Polyamide Resin Nylon 6 - 1022b10 5 Kgs 728.34 Thailand
Polyamide Resin Nylon 6 - 1022t 1325 Kgs 193009.11 Thailand
Polyamide Resin Nylon 6 - 1022t 675 Kgs 98325.39 Thailand
Polycarbonate 1003r Gc9at (Pc Resin) 23750 Kgs 3598125.3 Saudi arabia
Polycarbonate Resin 300 Kgs 161967.41 Japan
Polycarbonate Resin 300 Kgs 169271.82 Japan
Polycarbonate Resin 5000 Kgs 1508465.3 Korea
Polycarbonate Resin 2000 Kgs 603386.12 Korea
Polycarbonate Resin 1000 Kgs 597475.6 China
Polycarbonate Resin Infino Sc-1220r 17000 Kgs 2641432.8 Korea
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polycarbonate Resin Iupilon 16000 Kgs 2486054.4 Thailand
Polyester Resin 1620 Kgs 743671.7 Korea
Polymers Of Vinyl Chloride-Paste Grade 12000 Kgs 1367632.9 Japan
Polymers Of Vinyl Chloride-Paste Grade 12000 Kgs 1367632.9 Japan
Polymers Of Vinyl Chloride-Paste Grade 12000 Kgs 1447466.3 Japan
Polymethyl Methacrylate Resin 17500 Kgs 2775770.4 Korea
Nandini Chemical Journal, November 2015 Page 95
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Polymethyl Methacrylate Resin 17500 Kgs 2775770.4 Korea
Polypropylene Resin 11750 Kgs 1825696.2 Japan
Polypropylene Resin 66 Mts 9742225.7 Korea
Polypropylene Resin Desp Pp Grade No. Mt42tbtr P5 2 Mts 262848.46 Korea
Polypropylene Resin Desp Pp Grade No. Mt42tbye P5 5 Mts 657121.15 Korea
Polypropylene Resin Desp Pp Grade No. Mt62cs1 P5 12 Mts 1445019.1 Korea
Polypropylene Resin Desp Pp Grade No. Mt62cs3 P9 20 Mts 2408365.2 Korea
Polypropylene Resin Desp Pp Grade No. Mt62cs4 P9 2 Mts 240836.52 Korea
Polypropylene Resin Homopolymer P600f Film 51 Mts 4193274.6 Thailand
Polyvinyl Chloride Resin Suspension Grade: 95000 Kgs 5677649.4 Korea
Polyvinyl Chloride Resin Suspension Grade: 48000 Kgs 2812349 Korea
Pp Resin Cosmoplene Az564g 59 Mts 5332327.7 Singapore
Pp Resin Cosmoplene Cps200-1 2.35 Mts 347947.27 Singapore
Pp Resin Cosmoplene Gwh42n 1 Mts 176354.48 Singapore
Pvc Paste Resin Kbm4 31.2 Mts 2646094.2 Korea
Pvc Paste Resin Kl31 84 Mts 5710156.2 Korea
Pvc Resin 10000 Kgs 1769232.2 Germany
Pvc Resin Grade Ls 100e (K Value 65-68 ) 54000 Kgs 3111452.5 Korea
Pvc Resin Grade Ls 100h 55.5 Mts 3316814.2 Korea
Pvc Resin Grade Ls100e 126000 Kgs 7260055.7 Korea
Pvc Resin Grade Ls100e 126000 Kgs 7260055.7 Korea
Pvc Resin Ls100e 90000 Kgs 5289469.2 Korea
Pvc Resin Sg-5 102 Mts 5679080.5 China
Pvc Resin Sg-5 102 Mts 5679080.5 China
Pvc Resin Suspension Grade S65d 198000 Kgs 11408659 Taiwan
Pvc Resin Suspension Grade S65d 198000 Kgs 11408659 Taiwan
Pvc Resin Suspension Grade S65d 198000 Kgs 11408659 Taiwan
Pvc Resin Suspension Grade S65d 198000 Kgs 11408659 Taiwan
Pvc Resin Suspension Grade Th1000r 165000 Kgs 9293570.6 Japan
Pvc Resin Suspension Grade Th1000r 144564 Kgs 8142519.6 Japan
Pvc Resin Suspension Grade Th1000r ) 20436 Kgs 1151051 Japan
Pvc Resin-Grade Ls 100h(Suspension Grade) 55500 Kgs 3251778.6 Korea
Pvc Suspension Resin Grade - Ls 100 E 36 Mts 2085955 Korea
Pvc Suspension Resin Grade S 65d 6000 Kgs 349601.4 Taiwan
Pvc Suspension Resin Grade S 70 10000 Kgs 582669 Taiwan
Pvc Suspension Resin S65d 19813 Kgs 1154442.1 Taiwan
Pvc Suspension Resin S65d 1688.82 Kgs 98402.31 Taiwan
Pvc Suspension Resin S65d 32498.2 Kgs 1893568.2 Taiwan
Pvc Suspension Resin S65d 54000 Kgs 3146412.6 Taiwan
Resin - Polybutylene Terephthalate 3500 Kgs 672982.7 Malaysia
Resin - Polybutylene Terephthalate 875 Kgs 173910.51 Malaysia
Resin - Xarec Ea533 Cj8772002 Gray 500 Kgs 302664.18 Japan
Resin - Zytel (R) 79g13hsl Bk039 Nylon Resin 950 Kgs 315333.06 China
Resin - Zytel (R) 79g13hsl Nc010 Nylon Resin 950 Kgs 315333.06 China
Resin Latilub 73/13-01m 4034.7043.00/0 200 Kgs 99134.11 Italy
Resin Latilub 73-10 St 4034.7148.01/0 25 Kgs 20764.58 Italy
S Pvc Resin Tk-1000 80 Mts 4428284.4 Japan
S Pvc Resin Tk-1300 75 Mts 4151516.6 Japan
Saturated Carboxylated Polyester Resin 16000 Kgs 1957767.8 Thailand
Starex Asa Resin Acrylonitrile Styrene Acrylate Co Polymer 10500 Kgs 1692653.5 Korea
CATEGORY: WAX
Alexwax 600 (Fully Refined Paraffin Wax ) 120 Mts 9584710.8 Egypt
Alexwax 600 (Fully Refined Paraffin Wax ) 120 Mts 9584710.8 Egypt
Alkyl Ketene Dimer 32000 Kgs 3819481.5 China
Nandini Chemical Journal, November 2015 Page 96
NAME OF THE CHEMICAL
QTY
UNIT
VALUE IN
RS.
COUNTRY
CHEMICALS IMPORTED
Alkyl Ketene Dimer 32000 Kgs 3819481.5 China
Alkyl Ketene Dimer- 15400 Kgs 1917599.9 China
Alkyl Ketene Dimer , 14625 Kgs 1768662.4 China
Alkyl Ketene Dimer Grade C1840 , 16000 Kgs 1972611.1 China
Alkyl Ketene Dimer, 32000 Kgs 3819248.1 China
Alkyl Ketene Dimer, Grade C1840, 16000 Kgs 1953245.1 China
Alkyl Ketene Dimer-Beads(Akd) Grade 1840 15400 Kgs 1917599.9 China
Crude Scale Wax 17854 Kgs 2369565.9 USA
Fully Refined Paraffin Wax M.P. 58/60 Deg.C. 63 Mts 4608911.8 China
Fully Refined Paraffin Wax M.P. 58/60 Deg.C. 63 Mts 4608911.8 China
Fully Refined Paraffin Wax M.P. 58/60 Deg.C. 63 Mts 4608911.8 China
Fully refined paraffin wax m.p. 58/60 deg.c. 60 Mts 4370017.5 China
Fully Refined Paraffin Wax 125/130 31360 Kgs 3898133.3 Japan
Fully Refined Paraffin Wax 140/145 31360 Kgs 3796619.4 Japan
Fully Refined Paraffin Wax 58/60 86 Mts 6931818.9 China
Fully refined paraffin wax 66/68 64000 Kgs 5883662.08 China
Fully refined paraffin wax m.p. 58/60 deg.c. 21.5 Mts 1725995.06 China
Fully refined paraffin wax m.p.: 58/60 deg.c. brand: kunlun 20500 Kgs 1678782.11 China
Fully Refined Paraffin Wax Type-I 17472 Kgs 2609181.4 Japan
Fully Refined Paraffin Wax Type-I 17472 Kgs 2609181.4 Japan
Mc wax okerin 2122h- rubber anti ozonant (2578) 1250 Kgs 177781.46 China
Mc wax okerin 2122h- rubber anti ozonant (2578) 3125 Kgs 444453.66 China
Mc wax okerin 2122h- rubber anti ozonant (2578) 1250 Kgs 177781.46 China
Mc wax okerin 2122h- rubber anti ozonant (2578) 3125 Kgs 444453.66 China
Mc wax okerin 2122h- rubber anti ozonant (2578) 1250 Kgs 177781.46 China
Microcrystalline Wax 3750 Kgs 458708.86 Spain
Microcrystalline Wax 3750 Kgs 458708.86 Spain
Microcrystalline Wax 1000 Kgs 122322.36 Spain
Microcrystalline Wax - 15722 Kgs 2478484.2 USA
Microcrystalline wax redezon c-251 saco 25(mc wax) 250 Kgs 30580.59 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 250 Kgs 30580.59 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1375 Kgs 168193.25 Spain
Microcrystalline wax redezon c-251 saco 25(mc wax) 1000 Kgs 122322.36 Spain
Okerin 2122h - Rubber Anti Ozonant (M.C.Wax) 23750 Kgs 3367341.3 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 2500 Kgs 356945.36 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 2500 Kgs 356945.36 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 3125 Kgs 446181.7 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 2500 Kgs 356945.36 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 2500 Kgs 356945.36 China
Okerin 2122h-rubber antiozonant(microcrystalline wax ) 2500 Kgs 356945.36 China
Okerin 2837h - Rubber Anti Ozonant (M.C.Wax) 47500 Kgs 6150395 China
Okerin 2837h - rubber anti ozonant (m.c.wax) (m2577) 1250 Kgs 161852.5 China
Okerin 2837h - rubber anti ozonant (m.c.wax) (m2577) 5625 Kgs 728336.25 China
Okerin 2837h - rubber anti ozonant (m.c.wax) (m2577) 3125 Kgs 404631.25 China
Shell gtl sarawax sx55r - paraffin wax 20 Mts 1584241.56 Malaysia
Slack wax 70 38.71 Mts 2352364.99 Thailand
Wax 47 (Wax For Pull Up) 600 Kgs 129508.39 Italy
Wax 700 (Wax Emulsion) 300 Kgs 86114.09 Italy
Wax P 58 (Wax For Pull Up) 480 Kgs 113679.59 Italy