BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 1
PARTNERSHIP OF ÖZALTIN İNŞAAT TİCARET VE SANAYİ A.Ş. (ÖZALTIN CONSTRUCTION
TRADE AND INDUSTRY INC. CO.) AND NUROL İNŞAAT VE TİCARET A.Ş. (NUROL CONSTRUCTION AND
TRADE INC. CO.)
Arjantin Cad. No:9 G.O.P./ANKARA Buğday Sokak No:9 Kavaklıdere/ANKARA
Tel: (312) 466 40 20/ (312) 455 18 80 Fax: (312) 427 06 04/(312) 455 18 85
E2065 v39
PROJECT SITE Province of Osmaniye, Duzici District, Karagedik Village
OSKAN HYDROELECTRIC POWER PLANT FINAL ENVIRONMENTAL IMPACT ASSESSMENT (EIA)
PRELIMINARY SURVEY REPORT – PROJECT INFORMATION FILE
PREPARER OF THE REPORT
Bozat İnş. ve Tic. A.Ş. (Bozat Construction and Trade Inc. Co.)
Mahatma Gandi Cad. No:92/3 G.O.P. /ANKARA Tel : (312) 447 26 22 Fax : (312) 446 38 10
August-2003
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BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 2
* The Project Owner:
Name : PARTNERSHIP OF ÖZALTIN İNŞAAT TİCARET VE SANAYİ A.Ş -
NUROL İNŞAAT VE TİCARET A.Ş.
Address : Arjantin Cad. No:9 G.O.P. /ANKARA
Buğday Sokak No: 9 Kavaklıdere/ANKARA
Telephone : (312) 4664020
: (312) 4551880
Fax No : (312) 4270604
(312) 4551885
* Project Name : BERKMAN Hydroelectric Power Plant
* Name of the Place Selected for the Project :
Province : Osmaniye
District : Duzici
Town/Village : Karagedik Village
Location : ---
Sheet No : ---
Block No : ---
Parcel No : ---
Precipitation Area: 14.842 km2
* The Organization Drafting the Report;
Name : Bozat İnş. ve Tic. A.Ş.
Address : Mahatma Gandi Cad. No:92/3 06680 G.O.P. /ANKARA
Telephone : (312) 4472622
Fax no : (312) 4463810
* Draft Date of the Report : August 2003
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 3
CONTENTS* PAGE NO DEFINITION AND OBJECTIVE OF THE PROJECT 1 1. NON-TECHNICAL REPORT SUMMARY 2 2. PROJECT SPECIFICATIONS 3 a) Capacity of and the Project and the Area Covered by the Project etc. 3 b) Interaction with the Other Facilities around it 5 c) Use of Natural Resources 6 d) Waste Generation 6 e) Its impacts on Pollution and Environment 22 f) Accident Risks due to the Technology and Materials to be Utilized 23 3. LOCATION OF THE PROJECT 28 a) Current Use of Lands 32
b) Geological and Hydrogeological Characteristics and Natural Disaster Status 33 c) Status, Quality and Renewability of the Natural Resources in the Region 41 d) Considering the List of Sensitive Regions in Appendix-V the assessment of the natural environment (wetland areas, coastal areas, mountainsides and forest lands, agricultural areas, national parks, specially protected areas, densely populated areas, areas of historical, cultural, archaeological etc. importance) 48 4. PROPERTIES OF THE POSSIBLE IMPACTS ON THE CURRENT ENVIRONMENT 49 a) Scope of the Impact Area (geographical area and population affected) 49 b) Quality and Property, Duration, Frequency and Renewability of the Impact 50 5. ALTERNATIVES TO THE PROJECT AND SITE 52 6. CONCLUSIONS 53 *: The original Report (in Turkish) was approved by Turkish authorities. Only sections
relevant to environmental impacts and monitoring has been translated to English for Infoshop disclosure
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 4
DEFINITION AND OBJECTIVE OF THE PROJECT
Oskan Regulator and Hydroelectric Power Plant is located 14 km to the northwest of
Osmaniye Province, within the borders of Duzici District and on the Ceyhan River. The
approximate head is 21 m between the upstream Aslantaş Dam and HEPP and
downstream Cevdetiye Irrigation Regulator. This head is planned to be utilized through
upstream Oşkan HEPP and Berkman HEPP.
With an installed power of 3x10 MW, Oskan HEPP will generate 109,93 Gwh/year in total,
49,09 Gwh/year of which is reliable.
Turkey is a rich country in terms of hydroelectric energy sources. However, only 11% of
annual capacity estimated to be 108,5×109 can be used. This is nearly the half of our total
annual energy consumption while the rest of it is provided from thermal sources and
abroad.
Berkman HEPP and upstream Oşkan HEPP planned together are two plants which will be
established in order to make use of the 21-meter head between Cevdetiye Regulator and
Aslantaş Dam on Ceyhan River. Total annual energy generation of the two regulators,
each of which have 10,5 m heads, is 219,86 Gwh. This generation occupies an important
place within Ceyhan Basin.
Inasmuch as the state sector has to undertake investments of large dams, the authority to
establish and operate the facilities bearing the quality of this type of “River type Power
Plants” which do not require investment was granted to the private sector on 19/12/1984
with Law No. 3096. Oskan HEPP feasibility works desired to be conducted by benefiting
from this law are carried out by TEMELSU Muhendislik Limited Şirketi (TEMELSU
Engineering Limited Company).
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 5
1. NON-TECHNICAL REPORT SUMMARY The construction of Oskan Regulator and Hydroelectric Power Plant on Ceyhan River in
the Duzici District of the Province of Osmaniye is planned by the “PARTNERSHIP OF
ÖZALTIN İNŞAAT TİCARET VE SANAYİ A.Ş-NUROL İNŞAAT VE TİCARET A.Ş.” The
closest settlement unit to the project area is Karagedik Village, which is approximately 1,5
km away.
Oskan HEPP is a plant which will be established in order to make use of the 21-meter
head between Cevdetiye Regulator and Aslantaş Dam.
Construction stage of the project is expected to be completed in 3 years.
Area of the facility to be established remains outside the borders of adjacent area.
While 100 persons will be employed at the construction stage of the Hydroelectric Power
Plant, 5 persons will be employed at the operation stage. Within the scope of the project,
general needs such as food, shower, WC etc. of the employees at construction stage will
be provided from the prefabricated site building to be set up and the same needs will be
met at the power house building at the operation stage.
Economic life of the facility is reckoned to be 30 years depending on the changing and
advancing technology. With the hydroelectric power plant constructed through this project,
energy requirement of the Region that cannot be met will be satisfied to a large extent.
With the advancing industrialization, the need for energy, which is already scarce,
increases. For this reason, energy requirement of the industrialists and the whole region
will be largely met thanks to the HEPP to be constructed.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 6
2. PROJECT SPECIFICATIONS a) Capacity of the Project and the Area Covered by the Project etc.
Oskan Regulator Project area is approximately 14 km to the northwest of Osmaniye
Province, upstream of Cevdetiye Dam and around Karagedik Villages.
Coordinates of location of Berkman Regulator are 37° 24' north latitude and 36° 57' east
longitude.
In terms of topographical appearance, the land looks like Çukurova in regions between the
sea and slopes that face onto the sea and like typical Central Anatolia in upper parts. Total
basin area is 14.775km2.
With an installed power of 3×10 MW, Oskan HEPP will generate 109,93 Gwh/year in total,
49,09 Gwh/year of which is reliable.
Properties of Oskan Hydroelectric Power Plant are given in Table-2.a.1.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 7
Table-2.a.1 PROPERTIES OF BERKMAN HYDROELECTRIC POWER PLANT Drainage area :14.775km2
Reservoir water level :83,00m
Tailwater level :72,50m
Connecting dike type Earthfill
Crest length :150,00m
Crest elevation :85,50
Elevation from riverbed :15,50m
Backfill quantity :90.710m3
Backfill volume of cofferdams :14.225 m3
Crest elevation of upstream cofferdam :78,00
Crest elevation of downstream cofferdam :76,00
Spillway type :Radial gate
Threshold elevation :73,50
Number of spans :5
Span dimensions :12,00mx10,50m
Spillway structure project flowrate :3.200m3/sn
Gross head :10,5m
Installed power :30MW
Number of units :3
Unit power :10MW
Unit type :Pipe
Annual reliable generation :49,09GWh
Annual secondary generation :60,84GWh
Annual total generation :109,83GWh
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 8
b) Interaction with the Other Facilities around It Osmaniye Province and its vicinity have high development potential in agriculture,
industry, trade and tourism. Development of these sectors gives rise to new energy and
water requirements. Ceyhan River emerges as one of the closest sources to consumption
centres.
The most significant facilities among the ones that have been put into operation on
Ceyhan River is Aslantaş Dam and HEPP. This facility carries the purpose of irrigation,
flood protection and energy and has an installed power of 3x46MW. Its elevation from the
base is 95m, elevation from riverbed is 78m and it is an earth fill-type dam.
Kartalkaya Dam planned for irrigation is on the Aksu branch of Ceyhan River, is in
operation also. This earth-fill type Dam has an elevation of 57 m from the base while it is
56 m from the riverbed.
Menzelet Dam, which is in operation, has an elevation of 150,50 m. from the base and it is
130,50 m from riverbed and it is rock fill type. Power plant of Menzelet Dam planned for
irrigation and energy purposes, has an installed power of 4x30MW.
Downstream of Menzelet Dam is Sır Dam and has an elevation of 116 m from the base
and it is in concrete arch type. Sır HEPP has an installed power of 3X46MW.
Düzkesme Dam and Berke Power Plant Projects, which are downstream of Sır Dam, is
completed. Elevation of the concrete arch-type dam from the base is 83m. Berke Power
Plant has an installed power of 3x56MW.
Among the above-mentioned facilities, Aslantaş Dam is the most downstream one.
Approximately 23km downstream this dam is Cevdetiye Irrigation Regulator. There is a
head of around 21 m between Aslantaş and Cevdetiye Regulator. Berkman HEPP and
Oşkan HEPP, which is a similar work, were planned to make use of this head. Both of the
power plants were planned to have a power of 3x10MW.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 9
Inflow in Berkman Power Plant is formed by the outflow of Okşan HEPP, which is
upstream of it. However, like Berkman HEPP, Okşan HEPP is a facility with no storage.
For this reason, inflows are formed by outflows of Aslantaş Dam for both of the facilities.
The project has no interactions with other facilities than the above-mentioned ones.
c) Use of Natural Resources Construction of Regulator and the Hydroelectric Power Plant on Ceyhan River is planned
with the project. Water will be used as natural resource during the activity. The projected
HEPP will be operated as run-of-river plant. In general terms, the flow coming into the
reservoir on any day will go out of the reservoir in a short time in practice. When the
overflow currents reach the maximum level, the excess current will pass through the
spillway and released to the natural riverbed. In the case that the project is operated in this
way like a run-of-river plant, there will be no adequate time for significant changes
(Physical, chemical etc.) in water quality. The water is not expected to have a negative
impact on surface water resources as the projected HEPP Facility is run-of-river type plant
and water is released back to the river directly at once without delay.
d) Waste Generation i) Liquid Wastes
A. Construction Stage
The following will occur at construction stage of the project:
1. Concrete production,
2. Preventing dust formation,
3. Water consumption in order to meet drinking and utility water needs of the employees.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 10
It is assumed that approximately 100.000m3 water will be used for concrete works and
300.000m3 water will be used for the prevention of dust formation which makes 400.000m3
in total. This water required for the construction will be supplied from Ceyhan River.
It is not expected that a significant amount of wastewater will be generated as a result of
water use for the purpose of concrete production and the prevention of dust formation. A
large part of this water will fade through natural infiltration while the remaining part will
evaporate.
Apart from these, water will be used for the purposes of meeting the daily drinking and
utility water needs of the personnel to be employed during land preparation and the
construction of the facility. The number of personnel to work at construction stage of the
project is 100. The following results are reached, if the amount of water required per
person is considered to be 150 lt/day:
The number of workers to be employed : 100 persons
The amount of water to be used : 150 lt/person-day = 0.15 m3/person-day
Total water requirement : 0,15 m3/person-day x 100 persons =15 m3/day
This water, which is required as drinking and utility water, will be brought from nearby
villages to the facility area by tankers.
If it is deemed that the whole water used will return as wastewater, it can be seen that the
total amount of domestic wastewater to be generated in the area is 15 m3/day.
The pollutants contained in typical untreated domestic wastewater and their average
concentrations are given in Table- 2.d.1.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 11
Table-2.d.1. The Pollutants in Domestic Wastewater and their Average Concentrations
(Benefield, L. And Randall, C., 1980)
PARAMETER CONCENTRATION (mq/lt)
pH 6-9
TSS 200
BOD5 200
COD 500
Total Nitrogen 40
Total Phosphor 10
Pollution loads in domestic wastewater according the table above;
TSS 3
BOD5 3
COD 7,5
Total Nitrogen 0,6
Total Phosphor 0,15
This domestic wastewater to be formed will be collected in watertight cesspool to be built
pursuant to provisions of the “Regulation on the Pits to be excavated where Sewer System
Construction is not Possible” of the Ministry of Public Health and Welfare enforced upon
publication in the Official Gazette dated 19.03.1971 and No. 13783. Watertight cesspool
plan is given in Figure 2.d.1. Wastewater accumulating in the cesspool at the operation
stage will be limed at regular intervals and disinfectant substance will be added to it in
order to prevent spread of smell and endemic diseases. Wastewater accumulating in the
cesspool will be vacuumed by Municipality of Duzici with sewage truck and discharged into
the sewage system.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 12
Figure-2.d.1. Watertight Cesspool Plan
SCALE: 1/50
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 13
B. Operation Stage Number of personnel to work at the operation stage of the project is 5. If water amount
required per person is considered as150 lt/day:
Number of workers to be assigned : 5 persons
Water amount to be used : 150 lt/person-day = 0,15 m3/person-day
Total water requirement : 0,15 m3/person-day x 5 people = 0,75 m3/day
This water, which is necessary as drinking and utility water, will be brought from nearby
villages to the facility area by tankers.
If it is deemed that the whole water used will return as wastewater, it can be seen that the
total amount of domestic wastewater to be generated in the area is 0,75 m3/day.
The pollutants contained in typical untreated domestic wastewater and their average
concentrations are given in Table-2.d.2.
Table-2.d.2. Pollutants in Domestic Wastewater and their Average Concentrations
(Benefield, L. And Randall, C, 1980)
PARAMETER CONCENTRATION (mq/it)
pH 6-9
TSS 200
BOD5 200
COD 500
Total Nitrogen 40
Total Phosphor 10
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report 14
Pollution loads in domestic wastewater according to the table above:
TSS 0,15
BOD5 0,15
COD 0,38
Total Nitrogen 0,030
Total Phosphor 0,0075
This domestic wastewater to be formed will be collected in the lavatories to be constructed within
the power house building. Wastewater accumulated will be vacuumed by the Municipality
with sewage truck and discharged into the sewage system
ii) Solid Wastes
A. Construction Stage
We can divide the wastes to be formed at the construction stage within the scope of the
project into five main categories.
1st Group: Formwork wood residues,
2nd Group: Construction iron, iron pipe, profile, rubber etc.
3rd Group: Concrete and injection residue materials
4th Group: Domestic solid wastes
5th Group: Excavation to be formed during land preparation
The wood wastes used for formworks will be collected at certain intervals. In case of
demand, the wood wastes collected will be given to peasants in the vicinity and these
wastes will be used for the purpose of heating. The second group wastes will be collected
at certain intervals and sold to waste collectors. Third group solid wastes will be used as
backfill material.
The number of personnel to work at land preparation and construction stage will not
exceed 100 persons. The amount of domestic solid wastes to be generated by the
personnel concerned is calculated as follows by using domestic solid waste amount 0.865
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kg value produced daily per person (State Statistical Institute (DİE), The Results of the
Survey on Environmental Statistics, Household Solid Waste Composition and Tendency
Questionnaire, 1993):
100 personsx0.865kg/person-day=86,5kg/day
In accordance with the Article 8 of the “Regulation on Control of Solid Wastes” enforced
upon publication in the Official Gazette dated 14.03.1991 and No. 20814, domestic solid
wastes to be formed will be collected separately, and necessary precautions will be taken
for the purpose of facilitating their disposal and use without damaging the environment,
preventing environmental pollution and contributing to economy. The principles mentioned
in the Article 18 in section four of the same Regulation regarding collection and
transportation of solid wastes will be complied with and solid wastes will not be dumped
into places where they will cause negative impacts on the environment and will be
collected in standard closed waste bins.
In line with the Article 20 of the same section, they will be carried and discharged to the
landfills shown by the Municipality in such a way as not to pollute the environment in terms
of such factors as appearance, smell, dust, leakage etc.
Since the excavation to emerge during land preparation will be stored for the purpose of
backfilling base and pits, landscaping works and asphalting processes of stabilized road,
there will be no excavation waste materials.
Waste management will be achieved in such a way as to minimize the negative effects of
waste oil, grease oil and fuel on human health and environment in line with provisions of
“Regulation on Control of Hazardous Wastes” enforced upon publication in the Official
Gazette dated 27 August 1995 and No. 22387 and the “Circulars on Oil Wastes and Waste
Oil” dated 12 August 1996 and No. 2440-5249 and dated 21 November 1997 and No.
4473-7756.
B. Operation Stage
In total, 5 personnel will work at the operation stage of the project. A social facility will be available inside the power house building for the personnel to be employed.
Domestic solid waste amount to be generated by the personnel assigned is calculated as follows by using the domestic solid waste amount 0.865 kg value produced daily per person:
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5 N X 0.865 kg /N-day = 4,325 kg/day In accordance with the Article 8 of the “Regulation on Control of Solid Wastes” enforced
upon publication in the Official Gazette dated 14.03.1991 and No. 20814, domestic solid
wastes to be formed will be collected separately and necessary precautions will be taken
for the purpose of facilitating their disposal and use without damaging the environment,
preventing environmental pollution and contributing to the economy. The principles
mentioned in the Article 18 in section 4 of the same regulation regarding collection and
transportation of solid wastes will be complied with and solid wastes will not be dumped
into places where they will cause negative impacts on the environment and will be
collected in standard closed waste bins. In line with the Article 20 of the same section, they
will be carried and discharged to the landfills shown by the Municipality in such a way as
not to pollute the environment in terms of such factors as appearance, smell, dust, leakage
etc.
Waste management will be achieved in such a way as to minimize the detrimental effect of
waste oil and grease oil to be caused by maintenance and repair of tools and equipment
as well as the wastes formed as a result of leakage arising from fuel storage tanks and
petroleum pipelines on human health and environment in line with provisions of the
“Regulation on Control of Hazardous Wastes” enforced upon publication in the Official
Gazette dated 27 August 1995 and No. 22387 and the “Circulars on Oil Wastes and Waste
Oil” dated 12 August 1996 and No. 2440-5249 and dated 21 November 1997 and No.
4473-7756.
iii) Emission
A. Construction Stage
Catalytic heaters and electric energy will be used for the heating of workers who will work
beginning from land preparation until putting into operation of units and no fuel
consumption will take place for heating purposes.
Emission will generate as a result of the operation of construction equipments in the
activity area. Diesel oil will be used in construction equipments to be used in the area as
fuel and general properties of diesel oil are given in Table-2.d.3.
Table-2.d.3. General Properties of Diesel Oil
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PROPERTIES No:1 No: 2 No:4 No:5 No:6 Naming Gas Oil Diesel Oil Marin
Diesel-Oil Medium Fuel-Oil
Heavy Fuel-Oil
Consistency Very Flowable
Very Flowable
Easy Flowable
Medium Flowable
Heavy Flowable
Type Distilled Distilled Very light residue
Light residue Residues
Colour Light Amber Black Black Black Concentration (15°C)g/c m3
0.8251 0.8654 0.9279 0.9529 0.9861
Viscosity (38 °C) 1.6 2.68 15.0 50.0 360 0 Pour point (°C) -18.0 -18.0 -12.0 0.0 18.0 Atomization Temperature (°C)
Atmospheric Atmospheric -4.0 54.0 93.0
Pumping Temperature (°C)
Atmospheric Atmospheric -9.0 1.0 38.0
Carbon Residues (%) Trace Trace 2.5 5.0 12.0 Sulphur (%) 0.1 0.4-0.7 0.4-1.5 Max. 2.0 Max. 2.8 Oxygen-Nitrogen (%) 0.2 0.2 0.48 0.7 0.98 Hydrogen (%) 13.2 12.7 11.9 11.7 10.5 Carbon (%) 86.5 86.4 86.1 85.55 85.70 Water and Deposit (%) Trace Trace Max 0.5 max 1.0 max 8.0 Ash (%) Trace Trace 0.02 0.05 0.08 Heat Value (kcal/l) 9.121 9.387 9.720 9.863 9.986 (SOURCE: Air Pollution Control and Inspection, TMMOB (Union of Chambers of Turkish Engineers and Architects, Chamber of Chemical Engineers, May 1991) The necessary diesel oil required for construction equipment operating in the site will approximately be 60 l/h. Accordingly; Q=60 I/h x 0,8654kg/l =51,924kg/h(0,052 t/h) Table-2.d.4. Emission Factors of Pollution Emitted from Diesel Vehicles (kg/t) POLLUTANT DIESEL Carbonmonoxides 9.7 Hydrocarbons 29 Nitrogen Oxides 36 Sulphur oxides 6.5 Salt 18 Source: Principles of Air Pollution and its Inspection, 1991
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In accordance with this, the estimated pollutant values originating from construction equipments: Carbonmonoxides : 9,7 kg/T×0,052t/h=0,5044 g/h
Hydrocarbons : 29kg/Tx0,052t/h=1,508 kg/h
Nitrogen Oxides : 36kg/Tx0,052t/h=1,872 kg/h
Sulphur oxides : 6,5kg/Tx0,052t/h=0,338 kg/h
Dust : 18kg/Tx0,052t/h=0,936 kg/h
As mass flow values calculated for construction equipments is very low, it will not have any
negative impact on the current air quality.
Dust formation is expected during the construction activities of the project. Any kind of
solid or liquid substance, which has dimensions of a single molecule, is larger than
0.0002µm, smaller than 500µm and can suspend in the air for a while is in particle class.
Principles specified in the Article 7 of the Regulation on Protection of Air Quality enforced
upon publication in the Official Gazette dated 02.11.1986 and No. 19269 will be complied
with during transportation, unloading and loading of both excavation and excavation
wastes during the facility activity. Furthermore, principles in Section 5 of this article will be
complied with.
Approximately 30.000m3 (45.000 tons) of excavation waste material is expected to be
formed during land preparation. This material obtained will be stored to be used as backfill
material in the field and some of it will be used in road construction.
Dust emitting processes such as transport, loading and unloading will be used in
calculation of dust emissions due to the above-mentioned conditions. Dust emission
calculations will be carried out by considering that the whole excavation waste material
has been processed, which is the worst possibility.
Quantities of excavation waste material generation to be processed by working 10 months
in a year, 26 days in a month and 8 hours in a day and 3 years in total are given in Table-
2.d.5.
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Table-2.d.5. Quantities of excavation waste material generation to be formed at the construction stage
Generation
Work Period m3 tons
3 years 30.000 45.000
1 year (10 months) 10.000 15.000
1 month (26 days) 1.000 1.500
1 day (8 hours) 38,46 57,6
1 hour 4,8 7,21
Dust emission factors to be used in the calculation of dust emission formations are as
follows:
Transport (dust raised from roads) = 0,7 kg/km-vehicle
Loading of Material = 0,01 kg/ton
Unloading of Material = 0,01 kg/ton
*Dust amount to result from loading and unloading of material
- Amount of dust resulting from loading
7,21 ton /hour x 0,01 kg/ton = 0,072kg/hour
- Amount of dust resulting from unloading
7,21 ton /hour x 0,01 kg/ton = 0,072kg/hour
- Amount of dust resulting from loading and unloading
0,072kg/hour + 0,072kg/hour = 0,14kg/hour
* Amount of dust to be formed during transport of material:
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The material obtained from excavation will be stored to be used in site grading works, road
construction and some of it will be used as backfill material in the field. Transport distance
will be approximately 1 km. Considering that a truck transports 13,5 tons of material at a
time, for 7,21 tons of material which will be produced in one hour:
7,21ton/hour / 13,5 ton/trip =0,5 trip/hour (1 trip will be completed in one hour)
In this case, the amount of dust to be formed during transport for one-hour production:
1 trip/hour x 1 km/trip x Q,7kg/km =0,7 kg/hour
Mass flow rate value of the dust to be formed in this case:
Q=(1)+(2)
Q2= 0,14 kg/hour + 0,7 kg/hour + =0,84 kg/hour
It is indicated in article 1.1. of Annex. 2 list of the Regulation on Protection of Air Quality
that “the values representing air pollution are values of contribution to air pollution obtained
by measurements and total pollution values that constitute these values”. This definition is
followed by the provision that “in the case that the emissions occurring in places other than
chimneys are lower than 10% of the values given in the table below, there is no need for
calculations of Value of Contribution to Air Pollution and Total Pollution Value” in
subparagraph (b) of the same article.
Mass flow rate given for dust emission in first line of this table is 15 kg/hour. 10% of this is
1,5 kg/hour. Emission factors were obtained from EPA (www.epa.gov).
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Accordingly, as 0,84 kg/hour value is not above the 1,5 kg/hour value, which is the limit
value set out in the Regulation on Protection of Air Quality, and all operations will not be
carried out simultaneously, there was no need for air modelling.
The dust arising from the road will demonstrate a linear distribution and as the dust
amount formed remained below the 1,5 kg/hour value, which is the limit value set out in
the Regulation on Protection of Air Quality, there was no need for air modelling.
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However, although the value remained below the limit value, the precautions listed in
article 7/7 of the Regulation on Protection of Air Quality will be taken:
- Top of transporters will be covered with canvases
- Running speed of vehicles will be low (40 km at maximum)
- Roads will be moistened continuously.
In addition, personnel working in borrow pits have to wear dust mask in line with the
Regulation on Occupational Health and Safety of the Ministry of Labour and Social
Security of Republic of Turkey. As it will be followed throughout the entire stages of the
project, the Regulation on Protection of Air Quality enforced upon publication in the Official
Gazette dated November 2, 1986 and No. 19269, the Regulation on Noise Control
enforced upon publication in the Official Gazette dated December 11, 1986 and No. 19308
and provisions of the Regulation on Occupational Health and Safety of the Ministry of
Labour and Social Security of the Republic of Turkey will be complied with during these
operations and no problems will arise in terms of human health and environmental health
in this context.
B. Operation Stage
Catalytic heaters and electric energy will be used for heating of workers who will work at
the operation stage of the project and no fuel consumption will occur for heating purposes.
No emissions will occur at the operation stage of the project.
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iv) Noise A. Construction Stage
Vibration and noise will be generated by the use of heavy machinery and crusher facility -
even though it is used to a certain extent during the works to be conducted until the units
are put into operation. Machines will not work continuously, but in short periods. When the
noises to be generated at site are taken into account, the limits set for site noises in Table
4 of the “Regulation on Noise Control” enforced upon publication in the Official Gazette
dated 11.12.1986 and No. 19308 will not be exceeded. These limits are as follows:
Noise Source
Noise Level (Leq (dBA))
Building Construction (Continuous) 70
Road Construction (Temporary) 75
Impact Noises 100(Lmax)
All values contained in Annex: 1 of the regulation concerned will be observed as limit for
construction equipment and noises caused by construction equipment. For this purpose, it
will be ensured that the machines to be used are new and high-quality products of state-of-
the-art technology.
With regard to the noise that can be generated in the facility, the provisions contained in
the “Regulation on Noise Control” enforced upon publication in the Official Gazette dated
11.12.1986 and No. 19308 will be complied with. It is stated in the Article 6 of the second
section of this regulation pertinent to industry, road and construction machinery that
operation, putting into service and use of various noise sources and vehicles that create
the maximum noise permitted to be emitted by these sources is prohibited. It is indicated
that operation, putting into service and use of vehicles, the sound levels of which are given
in Annex 1 and which emit higher levels of noise than
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these ones without taking the necessary precautions are prohibited. The values set out in
Annex-1 will not be exceeded in compliance with this article. The noise levels set for noise
sources in the facility are as follows:
NOISE SOURCES NUMBER NOISE LEVEL
Leq, dBA
Grader 1 120
Road Roller 1 110
Loader 1 115
Excavator 1 105
Dump truck 15 85
Compressor 2 115
Concrete pump 2 115
Concrete plant 3 95
Crusher 1 110
Screen 1 85
AVERAGE EQUIVALENT NOISE LEVEL TO BE GENERATED IN THE FACILITY
n Leq = 10 log (1/n) ∑10Li/10
ı=l
n= number of noise
Li2= Noise levels, dBA
Leq=10 log(1/28 (10120/10 +10110/10 +10115/10 +10105/10 +15x1085/10 +2x10115/10 +3x1095/10
+2x10115/10 +10110/10 +1085/10)
Leq= 110.04 dbA
Equivalent Noise Level will decrease as moved away from the activity area. Noise Levels
at certain distances from the activity area are calculated as follows:
The correlation between the noise pressure level at r2 distance, GBS2 and the noise
pressure level at r1 distance, GBS1 provided that it is under the same angle can be
presented as follows:
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GBS2 =GBS1+20log10 (r1/r2) – Atmospheric Absorption
When the r1 distance in the activity area is considered as 1 m by neglecting the
atmospheric absorption, Equivalent Noise Levels at certain distances are as follows
obtained from the calculations made:
Distance to the activity area, r2 (m) Leq (dBA)
100 110,04+20log 1/100=70,04
200 110,04+20log 1/200=64,02
400 110,04+20log 1/ 400=58,00
600 110,04+20log 1/600=54,48
800 110,04+20log 1/800=51,98
1000 110,04+20log1/1000=50,04
1200 110,04+20log 1/1200=48,45
1400 110,04+20log 1/1400=47,11
1600 110,04+20log 1/1600=45,95
1800 110,04+20log 1/1800=44,93
2000 110,04+20log 1/2000=44,01
Noise distribution graph created in line with these values is given in Figure 1.
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According to the “Regulation on Noise Control” Table-3, noise criteria outside of
settlements prepared by taking community behaviours into account was set as 35-45
dB(A). Calculations were carried out by considering that all construction equipments will be
operated simultaneously, which is the worst-case scenario, but the construction
equipments concerned will not run simultaneously. Therefore, it is seen that the noise
created will not pose a risk in settlement units.
In addition, with regard to noise, precautions will be taken as per the relevant articles of
the “Regulation on Occupational Health and Safety” dated 11.04.1974 and No. 14765, it
will be ensured that people working in the activity area wear ear flaps in order to prevent
them from noise as stated in the Article 22 of the same regulation and provisions set out in
the Article 78 will be followed.
The nearest settlement unit to the construction site is Kumarlı Village and its distance is
2,5 km. Thus, noise to be detected at the nearest residence and other receiver sources
during construction activities is considered to be below the limits set out in the Regulation
on Noise Control.
B. Operation Stage
There are no major noise sources that will have a negative impact on the environment at
the operation stage of the project.
e) Its Impacts on Pollution and Environment
Liquid and solid wastes as well as emission and noise values to be generated at the
construction and operation stages of the hydroelectric power plant planned to be
constructed are given in Section 2.d in detail. As will be seen in the relevant sections,
liquid and solid wastes as well as emission and noise values to be formed within the scope
of the project will remain below the limit values and the facility is not expected to have a
negative impact on the environment.
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f) Accident Risks due to the Technology and Materials to be Utilized
With an installed power of 3×10 MW, Oskan HEPP will generate 109,93 Gwh/year in total,
49,09 Gwh/year of which is reliable.
The facility will consist of diversion structure, power plant, energy intake structures in the
power plant, connecting dike and switchyard. These sections of the facility are explained in
detail under the relevant headings.
1. Diversion Structures
Construction of Oskan Regulator and HEPP will be completed in two stages depending on
the diversion process. At the first stage, the diversion structure and power house building
will be constructed on the flat area which is located on the left coast and has an average
altitude of 85m. At this stage, the water level will not exceed this altitude therefore there
was no need to build a cofferdam. A thin wall will be constructed to prevent water leakage.
The second stage will commence upon completion of plant and diversion structures. At
this stage, after the entry and exit channels necessary for the spillway and power plant are
opened, the river will be flown from a diversion structure with a cofferdam. The cofferdam
is earth fill, slopes of which is 2,5 horizontal and 1 vertical. Crest elevation is 78,00 and
crest length is 110m and there is a thin wall of 12 m depth. At this stage, the connecting
dike and spillway will be connected to right slope.
2. Connecting Dike
The concrete structures located on the left coast will be connected to the right slope with a
homogenous earth fill dike. This dike that will cover the riverbed will have a crest width of
10 m, crest elevation of 85,50 m and crest length of 2150 m.
Water surface slope will be taken as 3 horizontal 1 vertical and air surface slope will be
taken as 2,5 horizontal and 1 vertical.
Construction of a thin wall that goes down to 50,05 elevation was envisaged in order to
achieve water-tightness under the connection dike. The thin wall will continue below the
diversion structure and power plant.
3. Diversion Structure
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Oşkan and Berkman regulators (at downstream), are facilities which will pass the
overflows to come from upstream as they are and have no reservoirs. The diversion
structure, which consists of threshold and stilling basin, will be designed in such a way as
to deliver a flow rate (Q= 3200 m3/s) equivalent to 100-year renewable overflow peak
value of Aslantaş Dam. For this reason, it will operate in parallel with the diversion
operation of Aslantaş Dam upstream of facilities.
Approach channel elevation will be 72,00 in the diversion structure. Threshold elevation
will be 73,50 and be divided in 5 spans of 12 m of width. These spans will be equipped
with radial gates of 12,00mx10,50m. Cofferdam gates are planned to be used in
maintenance and repair of radial gates and gate slots will be established at the pillars.
Middle pillar thickness will be taken as 3,0 m. Stilling basin will have a length of 50 m and
width of 72 m.
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4. Energy Structures
4.1. Optimization of Installed Power
Okşan HEPP is a facility with no reservoir. For this reason, the inflows are formed by
outflows of Aslantaş Dam which is existing in the upstream.
Irrigation development planned upstream of Aslantaş Dam affects the inflows. Irrigation
plans are composed of 4 stages in such a way that they will be put into operation in years
1985, 1995, 2005 and 2020. Flowrate-probability values of monthly inflows were identified
for the 4 irrigation stages. Generations which can be carried out with various installed
powers from 16,67MW to 50 MW were found in the operation works conducted with the
said inflows. Cost estimates of power plants with various installed powers were made and
their annual costs were calculated. As a consequence, installed power of 30MW was
identified as the best one. As the flows coming from the upstream Aslantaş HEPP will be
turbined in Berkman HEPP and given that no active volume will exist in the Regulator, it
was concluded that the number of units should be 3, in parallel with Aslantaş.
4.2. Annual Energy Generation
The energy generated in Oskan HEPP varies depending on development of irrigations
upstream. The generations carried out by taking into account the irrigation developments
for the years 1985, 1995, 2005 and 2020 are enumerated below. The requirement for
Cevdetiye irrigations downstream in operation works were also taken into consideration.
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Table-2.f.1. Energy Generation Outputs Expected by Taking Irrigation Developments of
Berkman HEPP Project into Account
GENERATION (Gwh/year) IRRIGATION
DEVELOPMENT
YEAR RELIABLE SECONDARY TOTAL
1985 69,25 56,58 125,83
1995 64,87 56,64 121.51
2005 49,09 60,84 109,93
2020 29,80 63.89 93,69
4.3. Power Plant, Switchyard and Permanent Equipment The power house will be established on the left side of the diversion structure. The power
plant, consisting of 3-generation blocks and 1 assembly block, will be equipped with pipe-
type turbine- generator units, each of which will have a power of 10MW, and will be run-of-
river type. Upstream side of the power house building will be equipped with grids and
cofferdam gates and be arranged as an irrigation structure. Gross head will be 10,5 m;
total flowrate of the power plant will be 345m3/s; rotation number of the generators will be
150 rotation/minute and nominal power will be 11,5MVA. The three unit blocks will have
the dimensions of 12,00×47.00m and there will be an assembly block sized 13,00×20.00m
on the left of unit blocks. Turbine axis elevation is 69,00. At the 76,00 elevation there will
be passage from the generator hall to turbine clearance and generator access shaft.
Distribution of units in the power plant as per the floors will be as follows:
1. 84,00 elevation: The power plant will be entered from this floor. Offices and lavatories
will be placed on this floor which will only be included in the assembly block.
2. 80,75 elevation: There will be telecommunication, control, relay and 400v distribution
rooms on this floor, which is only included in the unit block.
3. 80,00 elevation: dining hall will be available on this floor which will only be included in
assembly block.
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4. 76,00 elevation: generator crusher and exciter, electrical shop, station service
transformer will be available in the part of this floor which will be included in the unit
block and storage will be available in the part included in the assembly block.
Tailwater level of Oskan Regulator and Hydroelectric Power Plant is 72,50m, which is the
reservoir level of Berkman Regulator existing in the downstream.
Capacity of mobile bridge crane is 20 tons while capacity of the portal crane that renders
service to the spillway power plant together will be 50 tons.
Switchyard of 154 kV will be placed on an area of 82m×40m with an elevation of 71,05 m
on the left side of the power plant exit channel.
Heavy machinery will be used in the land preparation and construction works to be carried
out within the scope of the project. Occupational accidents are likely to happen in cases of
lack of attention and disregard of the safety instructions of the personnel and if the safety
tools and equipment are not used. The qualified personnel will be employed and the staff
will be trained on work safety in order to decrease the occupational accidents to the
minimum degree.
Relevant provisions of the Regulation on Occupational Health and Safety enforced upon
publication in the Official Gazette dated 11.01.1974 and No. 14765 will be complied with.
The personnel to work during the activity will not be allowed to be around either the trucks
or the loaders during loading. A car will be kept available in case of any accidents to occur
and it will be ensured that the personnel having an accident are taken to the nearest health
unit rapidly.
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The most significant potential health problem to arise among workers in the site is the
occurrence of a contagious disease. Periodical health control will be applied to the workers
in order to minimize this problem.
In the activity field, adequate fire extinguishing equipment (pickaxe, shovel, axe, water
bucket etc.) will be kept available in case of a fire to break out, the site will never be left
empty and a gurad will be available in the site for this purpose. Furthermore, a radio phone
will be kept in the activity field. Within the scope of the project, the provisions of the articles
relevant to Section 1 “the Safety Precautions to be taken against Fire in Workplaces” of
Part 5 of the Regulation on Occupational Health and Safety enforced upon publication in
the Official Gazette dated 11.04.1974 and No. 14765 will be followed.
Danger and warning boards will be put in necessary places in order to prevent the creation
of a danger or risk for those working within the facility and in this way, all possible hazards
and risks will be minimized.
3. LOCATION OF THE PROJECT
Oskan Regulator and Hydroelectric Power Plant is located 14 km to the northwest of the
Province of Osmaniye, within the borders of Duzici District and on Ceyhan River. This
head is planned to be utilized through upstream Oşkan HEPP and Berkman HEPP.
Osmaniye is located in the eastern part, Adana section of the Mediterranean region. It is
surrounded by Gaziantep in the east, Adana in the west, Hatay in the south and
Kahramanmaraş in the north. Being one of our southern provinces, Osmaniye is quite
close to the İskenderun Gulf (20 km) and has no coast. It is a province with a special
position through which E-5 that links Turkey to Syria and roads that link the Central
Anatolia Region and Mediterranean Region to the Southeastern Anatolia Region pass
through. It has a surface area of 3037 km2. Kadirli, Sumbas, Düziçi, Bahçe, Hasanbeyli
and Toprakkale are its districts.
Population coming from cities is much higher than the one coming from villages in the
Province of Osmaniye. The major reason for this is the fact that industry and trade sector
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is quite developed in the economic structure of the province. The people of the region
make their living from agriculture, industry and trade.
In the province, plains are wide, irrigation problem is largely solved and agriculture has a
large share in the economy as the climate conditions are appropriate for agriculture. Plains
occupy large areas particularly in Osmaniye, Kadirli, Toprakkale and Düziçi. Important
agricultural products are peanut, cotton, soybean, corn and wheat. Citrus fruits agriculture
and greenhouse cultivation have also developed in recent years due to warm winter
conditions. The district of Kadirli has an important place in radish production of Turkey.
The ponds and streams within the province borders are utilized in the fisheries industry.
Osmaniye has an intense commercial activity because of its special location as it is
located on important highways and railways.
The province of Osmaniye is located to the east of Çukurova. In the eastern part of the city
borders lie Amanos Mountain Ranges, which are recognized as the beginning of South-
eastern Taurus Mountains and the height of which exceeds 2000 m from place to place
while Central Taurus Mountains lie in its north. For this reason, land forms and elevations
vary to a great extent even in short distances. In other words, plains with little elevation are
next to high mountains. Eastern and northern parts of it are mountainous while southern
and western parts are bottom lands which are a continuation of Çukurova. As the central
district, Osmaniye is established on a fill land formed by accumulation of materials brought
by Hamus Creek and Karaçay that spring from Amanos Mountains (118 m). From place to
place volcanic stony areas and basalts are encountered on these fills. Furthermore, the
presence of Erzin Mineral Spring in our immediate vicinity and Haruniye Thermal Spring
within the Province borders (Hatay) proves that we are on a faulted structure in geological
terms.
The province of Osmaniye is located in the Mediterranean Region. It has a sultry weather
as summers are hot and humidity level is high. For this reason, transhumance has become
a life style. Plateaus are accessed in short distance as plains and mountains are side-by-
side on the province borders. Its important plateau is Zorkun Plateau, on which various
media organizations prepare and present programmes for promotional purposes.
Zorkun Plateau is on the Amanos Mountains, has an altitude of 1500 m and can see Syria
and Çukurova from a bird’s eye view. Because of its cool weather, natural beauties, cold
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water resources and as it is at a short distance and has adequate infrastructure services, it
has attracted the attention of people of our region and its population reaches 100 thousand
in summer months. Certain institutions and organizations arrange various social and
cultural events in tableland season on Zorkun Plateau such as Zorkun Child Festival. Apart
from Zorkun, the plateaus on the Amanos Mountains are Küreci, Tuztaşı, Dervişpınarı,
Mitisin and Fenk plateaus. Almanpınarı, Tutlupınarı and Başpınar plateaus are located in
Hasanbeyli district. Furthermore, Maksutoluğu, Çığşar, Akarca; Bağdaş (Sumbas)
plateaus on the Central Taurus Mountains are also important plateaus.
In the province, the Mediterranean climate, where winters are warm and rainy and
summers are hot and dry, is observed.
While snowfall and frost are not observed much in lower plateaus with little elevation,
snowy and frosty days are experienced in higher regions. Spoiled Mediterranean climate
properties are seen in these parts. Climate properties vary in short distances with the
effect of elevation. As a result of this, transhumance is a feature of the region.
Vegetation formed three different vegetation zones vertically.
1. Maquis: It is the natural vegetation composed of evergreen, small shrubs and trees.
It is more prominent in places where calabrian pine trees have been destroyed. This
zone continues up to 700-800 m of altitude from the shore.
Temperature (Average Annual) 18 C°
Highest (Average Annual) 24 C°
Lowest (Average Annual) 11 C°
Annual Precipitation 760 mm
Relative Humidity %67
Wind Direction Southwest-West
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2. Forest Zone: This zone starts from the upper bound of maquis and continues up to
1800-1900 metres of height. In lower regions, broad-leaved and mixed forests exist
while forests composed of coniferous trees such as black pine, cedar and abies
exist in higher zones.
3. Alpine Layer: It is the natural vegetation that starts from upper bounds of the forest
and continues up to 2000-2200 metres of height and is composed of herbaceous
species.
The largest river in the province is Ceyhan River. This river, which springs from inner
regions, passes through Osmaniye and flows into the sea from Adana. Other important
streams are branches of Ceyhan River, which spring from mountainous areas. These are
Karaçay, Hamus, Sumbas, Kesik, Savrun, Kalecik and Sabun Creek. Dams were
constructed on some of these creeks for various purposes.
Important Dam
Lakes
District Purpose Commissioning
Year
The Stream on
which it was Built
Mehmetli Dam Sumbas Irrigation 1971 Kesik Water
Kalecik Dam Hasanbeyli Irrigation 1987 Kalecik Creek
Aslantaş Dam Kadirli-Düziçi Irrigation, Electricity 1985 Ceyhan River
Berke Dam Düziçi Electricity 2001 Ceyhan River
Streams of the province of Osmaniye have irregular regimes. As Osmaniye has broad
agricultural lands, irrigation bears importance and for this reason, construction of irrigation
dams constitutes an important solution. There are no natural lakes exist in the province.
However, there are numerous karstic resources, which furnish abundant water due to the
karstic structure. The resources in the Bahçe district are upstream and bottling facilities
were established on the resources. There is Haruniye Thermal Spring near Düziçi district
of the province. This thermal spring is among the fist-degree thermal springs according to
criteria of the ministries of health and tourism. It is stated that it contributes to the
treatment of rheumatism, gynaecological diseases, skin diseases, nutrition disorders, liver
and gall bladder, stomach and intestinal diseases.
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Ceyhan is one of the major rivers that flow into the Mediterranean Sea. This river, which
springs from northwest of the Mediterranean Region on the Anatolia Plateau, is formed by
the merger of Göksun and Hurma Creeks. After merging with Aksu River to the west of
Kahramanmaraş and many large and small creeks, it flows in the southwest direction and
flows into the sea near Yumurtalık District.
a) Current Use of Lands
The highest point in Ceyhan Basin is 3081 m high from the sea level. The work site is
approximately 60 m high from the sea and limited with rugged lands of 157-273 meters. It
is surrounded by Göztepesi to the south (204,5m), Çamlıgedik to the northeast (157 m),
Küçükbakacak to the southeast (273 m) and Karayüce (230 m) to the west. In terms of
topographical appearance, the land looks like Çukurova in regions between the sea and
mountain hills that face onto the sea and like typical Central Anatolia in upper parts. Total
basin area is 14.775km2.
The closest settlement is Karagedik Village which has a stabilized road connection of 14
km.
In the location where power plant structures will be established, there is alluvion of Ceyhan
River on the bed while Pliocene aged pebble stone is available on both sides. Bearing
power of the alluvion and permeability of pebble stone were taken into account in the
preparation stage of the project.
The region is developed in agricultural terms. The hillsides on right and left coasts of the
project area are covered with spoiled forest lands and maquis. The remaining regions are
covered with broad agricultural lands and grazing lands. The products grown are cotton,
grains and citrus fruits due to the effect of the Mediterranean climate. Vegetable and fruit
cultivation are also highly developed. Forestry is one of the activities carried out in the
region, though not as much as agriculture.
There are no recreation areas or places of high landscape values around the project area.
However, agricultural lands are available around the area concerned. Since only
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hydroelectric power plant is planned to be constructed within the scope of the project, no
negative impacts are expected to occur on the agricultural lands in the vicinity.
b) Geological and Hydrogeological Characteristics and Natural Disaster Status
GEOLOGY
An engineering study entitled “Bakacak Regulator Engineering Geology Planning Report”
conducted by the General Directorate of State Hydraulic Works, the Survey and Planning
Department in the project area in 1965 is available.
Building area of the structures within the scope of Oskan HEPP Project and geological
units in its immediate vicinity are listed in the following order from the oldest to the
youngest one (from bottom to top).
5 Alluvion Quaternary
4 Terrace Plio quaternary
3 Basalt Plio quaternary
2 Pebble stone-sand stone Pliocene
1 Flysch Alt Eosen
EARTHQUAKE STATUS
The survey area is located right to the north of the intersection point of 36 east longitude
and 37 north latitude. It is included in the second-degree earthquake zone according to
earthquake zone map of the Ministry of Public Works and Settlement.
It is seen in the Turkey’s seismicity (A. Taban, 1970) publication of the Directorate of
Earthquake Research Institute that the survey area experienced two massive earthquakes
with the magnitudes of 7,72 and 9,42 MM between the years 1600-1964.
The relation between the Modified Mercalli (MM) scale and the greatest
acceleration/gravity that corresponds to this is as follows.
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MM Greatest Acceleration/Gravity
7 0.07
8 0.16
9 0.33
10 0.70
BUILDING MATERIAL
The material required for dike and cofferdam fillings and the aggregate necessary for
concrete structures will be provided from the alluvion. For this reason, there are no
problems in terms of distance and quantity.
HYDROGEOLOGICAL PROPERTIES
Oskan Regulator, located on Ceyhan River, is approximately 14 km to the northwest of
Osmaniye and 8 km downstream Aslantas Dam.
A series of water structures have been designed on Ceyhan River for the development of
water and soil resources of Ceyhan basin. The major ones among these structures are
Aslantaş, Berke, Sır, Menzelet, Kartalkaya, Kandil II, Kandil I and Kandil respectively from
downstream to upstream.
Precipitation area of Oskan Regulator is 14.775km2 and downstream of it is the Berkman
Regulator with a precipitation area of 14.842 km2.
Hydrogeological status of the formations on the survey site are explained below in detail
from the oldest to the youngest one.
Resources with high-flowrates spring from paleozoic (lime stone and its quartzites),
paleozoic aged quartzites were observed in the region. Quartzites and lime stones are
faulted and crackled.
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Mesozoic
a) Serpentine: High-flow resources spring from serpentines that constitute the Amanos
Mountains in places where they are faulted and crackled. It is promising in terms of
underground water.
b) Cretaceous Flysch: It is not rich in terms of underground water as the formation is
mostly clay lime stone and crumbled parts fill the cracks and faults although they are
faulted and crackled. Low-flow resources are encountered in some places.
c) Medium Cretaceous Lime Stone: These lime stones, which have yielded very little crop,
are not faulted and crackled and very hard and half-crystallized.
Tertiary
a) Sitir Fm. (Lower-Medium Miocene): Permeable and not rich in terms of underground
water. Low-flow resources were encountered.
b) Kadirli Fm. (Upper Moicene-Pliocene): Permeable and promising in terms of
underground water.
Quaternary
a) Kaliçi (Ağzıkara Fm.): Permeable and not rich in terms of underground water.
Underground water is in pores of the formation. It does not have good conductivity. The
water of the percolation wells dug in this formation usually run out in half an hour when
they are drawn 1-2 lt/sc.
b) Alluvion: The formation with the richest underground water is Alluvion in the Osmaniye
Plain and 25-35 lt/sc water is drawn with common centrifugal pump from 4"-6" driven wells
with a depth of 12 m dug within the field. Free aquifers have good water quality and static
level varies between 0-2 m while dynamic level varies between 1,5-3 m. In some years,
static level rises and base water becomes semi-artesian.
The underground water is used largely in the region for irrigation.
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c) Basalt: They are not promising in terms of underground water although they are faulted
and crackled.
With regard to the project, opinion of the General Directorate of State Hydraulic Works
(DSİ) will be submitted at the phase of obtaining licence from the Energy Market
Regulatory Authority (EPK).
c) Status, Quality and Renewability of the Natural Resources in the Region
Forest lands were devastated as a result of people destructing natural habitats for
centuries and steppe (moor) areas have emerged at the riverside. Especially, feeding
ground of mammals are the vicinities of villages nearby and they go to these grounds at
nights. The forests around are living areas for many birds and mammals. The rocky areas
on the upper part of mountains are protection and nesting areas for many bird species.
A rich fauna has been formed along Ceyhan river. Their fauna has been destroyed in
some places due to such factors as overhunting, wrong hunting (dynamiting, trapping),
land clearing, forest fires, flooding and erosion.
In the fauna linked to water and land on the banks of Ceyhan River, although the flora,
which plays an important role in terms of accommodation, egg laying, breeding, protection
and feeding of living organisms, have been devastated in some places, these are
frequently encountered along the river in some places.
On the other hand, adequate habitats are available in the upper parts of the power plant
water level for the animal species living in the region. This means that there will be no
negative effect on bird and other living species.
Many living species will be able to come to the area as a result of the alterations in soil,
water and food chain and this can have a positive effect on the fauna.
As is known, hydroelectric power plants do not cause air, water, chemical and radioactive
pollution. They can have indirect or direct impact on the biological environment.
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The HEPPs affect flora directly in that plants submerging lose biomass. However, it can
have indirect effect with the alterations which can occur in microclimate. Average annual
temperature can rise between 1 and 1,5 °C while relative humidity can rise by 6% in
summer. This effect can lead to very complicated changes in plant life. For example,
reproduction period of plants can change as this temperature and relative humidity rise.
Aquatic fauna within the project area is rich due to ecological differences. As the water in
the dam lake can be controlled better in comparison to stream, more zoo and
phytoplankton will be formed in the lake in terms of quantity and diversity. As a result of
this, it will be possible for fish to reproduce faster and more.
Water quality of Ceyhan River bears the typical features of mountainous areas and
measurable changes are not expected to occur in water quality when water accumulates in
the reservoir.
The main reasons for not expecting occurrence of measurable changes are the facts that
the reservoir has low storage capacity and annual flows are quite high in proportion to this.
For this reason, this reservoir has no annual or seasonal regulation potential.
FLORA-FAUNA
The project site is located in the Mediterranean Region as geographical region and in the
Mediterranean Phytogeography Region in terms of phytogeography. Vegetation formations
of the Mediterranean Phytogeography Region are given in Figure 1.
The Mediterranean floristic region shows similarities with other regions of our country
except for the Black Sea Region. A summer drought is experienced in every region of our
country and this feature is the characteristic of the Mediterranean climate type. The region
does not have a homogenous climate and varies in terms of temperature and precipitation.
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Pinus brutia (Calabrian Pine) forests are characteristic from low levels of this floristic
region up to 1000 m. The vegetation type called maquis is predominant in the places
where forests are destroyed. Frigana formation is observed in the places where maquis is
destroyed. Above 1000 m of the Mediterranean Phytogeography Region are pure and
mixed forests such as Pinus nigra (Black Pine), Cedrus libani (Lebanon cedar) and Abies
cilicica (Cilician fir). Paliurus spina-christi (black thorn), Berberis crategina (barberry) and
Juniperus oxycedrus (prickly cedar) are observed in places where the above enumerated
species have been destroyed.
The closest settlement units to the facility area is the Karagedik Villages. They are
destroyed areas open to anthropogenic affect (human effect) as settlement units are
around the area. As a result, natural floristic composition has degraded to a great degree
due to anthropogenic effects and turned into a disrupted land structure where the flora
weakened a lot in some places. The current dominant species in the area are composite
species with broad ecological tolerance that can live in such destroyed areas.
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FIGURE. 1. VEGETATION FORMATIONS OF THE MEDITERRANEAN PHYTOGEOGRAPHY REGION
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Table.1. Flora Elements in the Facility Area and its Vicinity
LATIN NAME NAME IN TURKISH REGIONAL
NAME
ENDEMISM RED-
DATA
BOOK
BERN
COMPOSİTAE
Onopordum bracteatum Kangal (kangal) Kangal - - -
Anthemis tinctoria Sarı papatya (camomile) - - - _
Carduus nutants Deve dikeni (musk thistle) Deve dikeni - - -
LEGUMİNOSAE
Astragalus microcephalus Boz geven (milk vetch) Geven
Spartium junceum Katır tırnağı (woodwaxen) Katır tırnağı - - _
Ce ratonia siliqua Harnup (locust) - - - -
CRUCIFERA
Sinapis arvensis Hardal otu (wild mustard) Turp otu - - -
SCROPHULARIACEAE
Verbascum glomeratum Sığır kuyruğu (mullein) Sığır kuyruğu - _ _
MALVACEAE
Malva neglacte Küçük ebegümeci (mallow) Ebegümeci - -
Alcea palleda Hatmi (hibiscus) Hatmi - -
LABİATAE
Lamium amplexicaule Ballıbaba (deadnettle) Ballıbaba - - -
Teucrium poium Tüylü kısamahmut (felty
germander)
Acı yavşan - - -
GRAMINAE
Avena fatua Deli yulaf (wild oat) Yabani yulaf - -
Po a bulbosa - - - - -
Cynodon dactilon Domuz ayrığı (Bermuda grass) Ayrık - - _
EUPHORBİACEAE
Euphorbia falcata Sütleğen (spurge) - - - -
PAPAVERACEAE
Papaver rhoeas Gelincik (poppy) Gelin otu - _ -
PINACEAE
Pinus brutia Kızılcam (calabrian pine) Kızılcam - -
Cedrus libani Toros Sediri (Lebanon Cedar) Sedir - - -
RHAMNACEAE
Paliurus spina Kara çalı (blackthorn) Çalı dikeni - - ----
“Turkish Plant Name Dictionary”, which is a publication of Turkish Language Society, was
taken as reference in the preparation of regional names of plant species in Column III.
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Plant species stated in the list published by the secretariat of the “Convention on the
Conservation of European Wildlife and Natural Habitats” (Bern Convention) are not
available in the facility area. The endemic species contained in Red Data Book of Turkey
Plants are not seen in the facility area, either.
Fauna elements have also decreased both due to lack of suitable habitats and
anthropogenic (human effect) impacts.
Table.2. Invertebrate species in the Facility Area and is Vicinity
LATIN NAME NAME IN TURKISH BERN HABITATS
Yumuşakçalar (mollusca)
Lubbiricus terrestris Toprak solucanı (wiggler) - Within field and garden soil
Isopoda
Armalilidae Eşayaklılar (isopods)
Jullus terrestris Kırkayak (millipede) - Within soil and under stones on
lands
Diptera
Muscidae Karasinekler (houseflies)
Musca domestica Karasinek (housefly) - Any kind of habitat
Orthoptera
Gryllotalpidae Çekirgeler (grasshoppers)
Gryllus campentris Siyah çekirge (field cricket) - Forests, bushes, field
and gardens
Coleoptera
Coccinelidae Uğur böcekleri (lady bugs)
Coccinella septempunedata 7 noktalı gelinböceği (lady
beetle)
- Forests, bushes,
field and gardens
Lampyridae Ateş böcekleri (fire beetles)
Lampyris noctiluca Ateş böceği (fire beetle) - Forests, brushwood and haystacks
Saltatoria Çayır ve çalı çekirgeleri
(grasshoppers and crickets)
Grylüdae Cırcırlar (ratchets)
Acheta domestica Ev Cırcırları (house cricket) - Houses, bushes and moors, parks
and gardens
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Table.3. Vertebrates in the Facility Area and its Vicinity
LATIN NAME TURKISH NAME BERN HABITAT
REPTİLİA REPTILES
Squamata
Lacertidae Asıl kertenkeleler (true lizards)
Lacerta trilineata İri yeşil kertenkele (Balkan Emerald Lizard) II Vineyards, gardens and forest lands
Lacerta danfordi - III Forest and bushes, rocky grounds and walls
Ophisops elegans Tarla kertenkelesi (snake-eyed lizard) III Vineyards, gardens and forest lands
Typhlopidae Kör yılanlar (blind worms)
Typhlops vermucularis Kör yılan (blind worm) III Within humid soil, under stones
TESTUDINES
Testudinidae Kaplumbağalar (turtles)
Testudo graeca Adi tosbağa (greek spur-thighed tortoise) II Culture lands, stony, sandy land
Colubridae
Coluber jugularis Kara yılan (black whip snake) II Plains, stream banks, mountain hills, fields and
under stones
Coluber najadum Ok yılanı (racer) II Bushy and stony areas
MAMMALIA MAMMALS
Muridae Faregiller (murids)
Rattus rattus Siyah sıçan (black rat) - Wide spread
Mus musculus Ev faresi (mus) Ill Settlements
Spalacidae Kör fareler (bilnd mole rats)
Spalax ehrenbergi Güney kör faresi (middle east blind mole rat) II Vineyards and gardens
Leporidae Tavşangiller (hares and rabbits)
Lepus capensis Tavşan (rabbit) II Any kind of habitat
Canidae Köpekgiller (canidae)
Canis lupus Köpek (dog) - Any kind of habitat
Felidae Kedigiller (felids)
Felis domestica Kedi (cat) - Any kind of habitat
Table.4. Birds in the Facility Area and its Vicinity
LATIN NAME NAME IN TURKISH BERN
Columba livia Kaya güvercini (rock pigeon) III
Corvus corax Karakarga (common raven) -
Coturnix coturnix Bıldırcın (quail) III
Delichon urbica Kırlangıç (swallow) II
Fringilla coelebs İspinoz (finch) III
Merops apister Arı kuşu (bee eater) II
Passer domesticus Ev serçesi (house sparrow) -
Streptopelia decaocta Kumru (dove) III
Streptopelia turtur Üveyik (turtle dove) III
Sturnus vulgaris Sığırcık (starling) -
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The envisaged HEPP recommended will be operated as run-of-river type power plant. In
practice, flow coming to the reservoir at any day will go out of the reservoir in a short time
in general. When overflows reach the maximum level, the excessive flow will pass through
the spillway and given to the natural riverbed. There will be no adequate time for important
alterations (Physical, chemical etc.) in water quality in case the project is run this way like
a river power plant. The water is not expected to have a negative effect on surface water
resources as the HEPP recommended is run-of-river type power plant and water is given
to the river directly without delay.
d) Considering the List of Sensitive Regions in Appendix-V the assessment of the
natural environment (wetland areas, coastal areas, mountainsides and forest lands,
agricultural areas, national parks, specially protected areas, densely populated
areas, areas of historical, cultural, archaeological etc. importance)
Natural monuments, nature protection area, natural protected areas and monuments,
archaeological historical protected areas, specially protected environment areas and
touristic sites are not available in the activity area.
It was stated in the letter of the Provincial Culture Directorate of Adana Governorate of the
Republic of Turkey dated 04/07/2002 and No. 1199 (Annex 1) that the riverbed between
Mağaraönü and İkizler Village are surveyed in the area concerned and no cultural asset or
historical texture was encountered on the surface and no assessment and registry record
was encountered regarding the areas concerned in archive enquiries.
The activity area is not within the forest region.
There are agricultural lands around the activity area. However, no negative impacts are
expected on these agricultural lands around as the facility to be established is in water
environment and only construction of hydroelectric power plant is planned within the scope
of the project.
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4.PROPERTIES OF THE POSSIBLE IMPACTS ON THE CURRENT ENVIRONMENT
a) Scope of the Impact Area (geographical area and population affected)
Oskan Regulator and Hydroelectric Power Plant is located 14 km to the northwest of
Osmaniye Province, within the borders of Duzici District on Ceyhan River. The closest
settlement unit to the project area is Karagedik Village, which is approximately 1,5 km
away.
The Province of Osmaniye has a population of 428.349 people. 287.268 people of the
population live in cities while 141.081 people live in villages. The city population is above
the Turkey average with 67% and below the Turkey average with 33% of village
population. Population density is 141 people. Population growth rate of the province is
013,9%. It has low fertility rate and high immigration rate. However, the immigrations have
decreased in recent years. The population is dense mostly on plains and is sparse in
mountainous areas.
The highest point in Ceyhan Basin is 3081 m high from the sea level. The work area is
approximately 60 m high from the sea and limited with rugged lands of 157-273 meters. It
is surrounded by Göztepesi to the south (204,5m), Çamlıgedik to the northeast (157 m),
Küçükbakacak to the southeast (273 m) and Karayüce (230 m) to the west.
In terms of topographical appearance, the land looks like Çukurova in regions between the
sea and mountain hills that face onto the sea and like typical Central Anatolia in upper
parts. Total basin area is 14.775km2.
Head of around 21 m exists between the upstream Aslantaş Dam and HEPP and
downstream Cevdetiye Irrigation Regulator. This head is planned to be made use of
through upstream Oşkan HEPP and Berkman HEPP.
With an installed power of 3×10 MW, Oskan HEPP will generate 109,93 Gwh/year in total,
49,09 Gwh/year of which is reliable. This energy to be generated will meet some part of
the energy requirement of Osmaniye Province.
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Furthermore, employment will be provided for 100 people at construction stage and 5
people at operation stage. Personnel to work in the facility will create employment for
those living in nearby settlements. In this way, there will be an increase in income level in
the region. Unemployment will be eliminated even to a slight degree and positive
contribution will be made to the economy as a result of the activity to be carried out.
An area with a radius of 1 km was conceived as an impact area for the possible effects of
the project on the environment. The effects of the project on the environment were
handled in the relevant section headings and pollution factors are expected to remain
below the limit values. For this reason, the facility will not have a great negative effect on
the environment.
b) Quality and Property, Duration, Frequency and Renewability of the Impact
The project is planned to be conducted by “PARTNERSHIP OF ÖZALTIN İNŞAAT
TİCARET VE SANAYİ A.Ş-NUROL İNŞAAT VE TİCARET A.Ş”. The closest settlement
unit to the project site is Karagedik Village, which is approximately 1,5 km far.
Construction processes of the Oskan Hydroelectric Power Plant is planned to be
completed in 3 years. Project life is 30 years following completion of the power plant.
The impacts of the activity can be divided into the headings of soil, air, water.
Agricultural lands are available around the activity area. However, no negative effect is
expected to take place on these agricultural lands around as the facility to be established
is in water environment and only construction of hydroelectric power plant is planned
within the scope of the project.
Exhaust gas will be emitted from exhausts of the machinery to run during construction of
the power plant planned to be established. As can also be seen from the calculations
made in relevant sections of the report, as per the sub-paragraph 1.1.b. of Annex 2 of the
Regulation on Protection on Air Quality enforced upon publication in the Official Gazette
dated 02.11.1986 and No. 19269, emission amount will be below the limit value, fuel
systems of the vehicles will be checked regularly and the provisions of the Circular on
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OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report
Motor Vehicle Exhaust Gases dated 25.09.1992 and No. 8483 issued by the Ministry of
Environment will be complied with.
The dust amount to be generated during the construction of the project will remain below
the limit value set out in the “Regulation on Protection of Air Quality”. For this reason, the
project is not expected to have a negative effect on the air.
The waste water to be formed during construction of the activity will be collected in
watertight cesspool to be built pursuant to provisions of the “Regulation on the Pits to be
excavated where Sewer System Construction is not Possible” of the Ministry of Public
Health and Welfare enforced upon publication in the Official Gazette dated 19.03.1971 and
No. 13783. Watertight cesspool plan is given in Figure 2.d.1. Wastewater accumulating in
the cesspool will be limed at regular intervals and disinfectant substance will be added to it
in order to prevent spread of smell and endemic diseases. Waste water accumulating in
the cesspool will be vacuumed by the Municipality with sewage truck and discharged into
the sewage system. The waste water to be formed at operation stage will be collected in the
lavatories within the powerhouse. Wastewater having accumulated will be vacuumed by the
Municipality with sewage truck and discharged into the sewage system. In this way,
possible polluting effects of wastewater on the environment will be minimized.
Further, an additional employment area will be provided in the region as a result of the
carrying out of the project in the planned area and contribution will be made to the national
economy with 109,93 Gwh/year energy to be generated.
These effects will be permanent as long as the facility operates uninterruptedly and
continuously and adaptation to the equipment appropriate for the advancing technology is
achieved.
5. ALTERNATIVES TO THE PROJECT AND SITE
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OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report
Head of around 21 m exists between the upstream Aslantaş Dam and HEPP and
downstream Cevdetiye Irrigation Regulator. This head is planned to be utilized through
upstream Oşkan HEPP and Berkman HEPP.
The material required for dike and cofferdam fillings and the aggregate necessary for
concrete structures will be provided from the alluvion. Therefore, there is no problem in
terms of distance and quantity. The alluvion units do not bring about insolvable problems
in terms of foundation generation and permeability with pebble stone-sand stone
intercalation that forms the basis of structures related to Oskan HEPP.
The only realistic technology which can be an alternative to hydroelectric generation is
thermal power plant. However, there are no natural resources (oil, coal, natural gas) in the
region which can make this alternative feasible. Therefore, run-of-river type power plant
project seems to be the only realistic option.
All the relevant legislation and current structure of the region have been taken into account
with regard to the measures to be taken. As can be seen upon the examination of the
report, provision of best conditions has been aimed both in environmental terms and in
terms of occupational health. There will be no environmental pollution or health problems
at both the establishment and operation stages. There are no solid and liquid wastes that
will be generated from electricity generation. The necessary measures for the domestic
solid wastes and waste water to be formed will be taken as explained in the relevant
sections.
6. CONCLUSIONS
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report
It is planned by “PARTNERSHIP OF ÖZALTIN İNŞAAT TİCARET VE SANAYİ A.Ş-
NUROL İNŞAAT VE TİCARET A.Ş.” that Oskan Regulator and Hydroelectric Power Plant
will be constructed on Ceyhan River in Duzici District of Osmaniye Province. The closest
settlement unit to the project area is Karagedik Village, which is approximately 1,5 km
away.
With an installed power of 3×10 MW, Oskan HEPP will generate 109,93 Gwh/year in total,
49,09 Gwh/year of which is reliable.
100 personnel will be employed at the construction stage of the facility while 5 personnel
will be employed at the operation level. Water need of the personnel to be employed will
be brought to the project site by water tankers.
The domestic waste water to be generated by personnel at construction stage of the
activity will be collected in water-tight cesspool. The cesspool to be built in the facility will
have bases and sidewalls made of water-tight concrete pursuant to “Regulation on the Pits
to be excavated where Sewer System Construction is not Possible” enforced upon
publication in the Official Gazette dated 19.03.1971 and No. 13783. The waste water to be
formed at operation stage will be collected in the lavatories within the powerhouse and be
vacuumed by the Municipality with sewage truck at regular intervals.
No solid wastes will be generated in the facility due to processes. Only domestic solid
waste will be generated by the personnel working in the facility. In accordance with the
Article 8 of the “Regulation on Control of Solid Wastes”, domestic solid wastes to be
formed will be collected separately, maintained and necessary precautions will be taken
for the purpose of facilitating their disposal and use without damaging the environment,
preventing environmental pollution and contributing to economy. The principles specified in
the Article 18 in section 4 of the same Regulation regarding collecting and transporting
solid wastes will be complied with and solid wastes will not be dumped into places where
they will cause negative impacts on the environment and will be collected in standard
closed waste bins. In line with the Article 20 of the same section, they will be carried and
discharged to the landfills shown by the municipality in such a way as not to pollute the
environment in terms of such factors as appearance, smell, dust, leakage etc.
Exhaust gas will be emitted from exhausts of the machinery to run during construction of
the power plant planned to be established. As can also be seen from the calculations
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report
made in relevant sections of the report, as per the sub-paragraph 1.1.b. of Annex 2 of the
Regulation on Protection of Air Quality enforced upon publication in the Official Gazette
dated 02.11.1986 and No. 19269, emission amount will be below the limit value and
therefore it was concluded that there was no need for calculations of air pollution
contribution values and total pollution value.
In this regard, fuel systems of the vehicles will be checked regularly and the provisions of
the Circular on Motor Vehicle Exhaust Gases dated 25.09.1992 and No. 8483 published
by the Ministry of Environment will be followed.
The values which are specified in Table 2 showing the highest acceptable noise levels and
specified in the Article 11 of the “Regulation on Noise Control” enforced upon publication in
the Official Gazette dated 11.12.1986 and No. 19308 will be followed.
In addition, with regard to noise, measures will be taken as per the relevant articles of the
“Regulation on Occupational Health and Safety” dated 11.04.1974 and No. 14765, it will
be ensured that people working in the activity area wear ear flaps in order to avoid getting
affected from noise as mentioned in Article 22 of the same regulation and provisions set
out in the Article 78 will be complied with.
Danger and warning boards will be placed in appropriate places in order to prevent
creation of a danger or risk for those working within the facility and in this way, all possible
hazards and risks will be minimized.
BOZAT INC.
OSKAN Hydroelectric Power Plant EIA Preliminary Survey Report