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https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
E
SUB-COMMITTEE ON CARRIAGE OF CARGOES AND CONTAINERS 3rd session Agenda item 5
CCC 3/INF.11
1 July 2016 ENGLISH ONLY
AMENDMENTS TO THE IMSBC CODE AND SUPPLEMENTS
Supporting information for the proposed the new individual schedule for
sugarcane biomass pellets
Submitted by Brazil
SUMMARY
Executive summary: This document contains the cargo information to support the proposed new individual schedule for sugarcane biomass pellets in the IMSBC Code
Strategic direction: 5.2
High-level action: 5.2.3
Output: 5.2.3.3
Action to be taken: Paragraph 2
Related document: CCC 3/5/15
Introduction 1 In document CCC 3/5/15, Brazil proposes a new individual schedule for Sugarcane Biomass Pellets in the IMSBC Code. The supporting documentation for this cargo, such as IMO solid bulk cargo information reporting questionnaire, Material Safety Data Sheet, ESG Analysis Report and ignition, burning rate and explosivity testing of sugarcane dust are set out in annexes 1 to 4 to this document. Action requested of the Sub-Committee 2 The Sub-Committee is invited to note the information provided and take action as appropriate.
***
CCC 3/INF.11 Annex 1, page 1
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
ANNEX 1 INTERNATIONAL MARITIME SOLID BULK CARGO INFORMATION QUESTIONNAIRE
A – Basic background information a.1) Are there other synonyms or trade names in use? Fuel Pellets, White Pellets, Sugarcane Biomass Pellets, Bagasse Pellets and Straw Pellets. a.2) How is it manufactured, how is it made, or where does it originate? Preparation of sugarcane biomass – drying process conducted in the field itself or via dryer machine. Chipping / grinding – biomass with low humidity is ground and reduced to particles of short fibres; Pelletizing – the dried and milled material passes through a mechanical extruder being forced through an orifice in a metallic matrix to get a dense and cylindrical conformation; Cooling and conditioning – the pellets generated in the extrusion step are cooled and then stored in silos for loading and transportation. a.3) What is used? Dryer, special sieves, cutters and pelletizer. a.4) Where is the producer facility? The Cosan Biomass industrial facility is located in Jaú, SP, Brazil. a.5) In what countries? Sugarcane biomass pellets are currently only produced in Brazil. a.6) In what volumes? Our facility has the capacity to produce 200,000 tons per year. a.7) What experience do you have with the cargo? No shipments of this type of product have been made to date; however, it is expected that the cargo behaves similarly to the pellets produced from wood, which have been transported in bulk for several years.
CCC 3/INF.11 Annex 1, page 2
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
B – Basic Cargo Properties b.1) What is the colour of the product? Sugarcane biomass pellets are light blond to chocolate brown in colour. b.2) Does it have an odour? Above +5ºC, fresh Sugarcane Biomass Pellets in bulk smell like aldehydes in poorly ventilated spaces and more like fresh bagasse in ventilated spaces. b.3) What form is the cargo in? What particle sizes? Pellet format, cylindrical with 10 to 50 mm long and 6 to 12 mm in diameter, typically with specific density between 1200 to 1700 kg/m³ and bulk density between 600 to 700 kg/m³. b.4) Is anything added to pellet during production process? Product 100% of vegetable origin without any additive. b.5) Quantity of moisture. Typically less than 10%. b.6) How is it stored? Outside? Under Cover? In our plant, cargo is stored in silos. Product could also be stored in covered warehouses, like sugar warehouses, for example. b.7) Does the cargo cake when wet? Yes. b.8) Is it a cohesive cargo or a free-flowing cargo? It is a free-flowing cargo.
CCC 3/INF.11 Annex 1, page 3
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
C – Hazardous Properties For this section of the questionnaire, each answer should be supported by test data on multiple samples from difference sources. If a question is not applicable, a detailed explanation of why it is not applicable should be made. c.1) Does it meet the definition of Dangerous goods (Hazard Classes 1-9)? No, the product is not classified in any of the nine categories proposed for hazardous classifications. c.2) Which hazard classes? The product is MHB (Material Hazardous in Bulk), CB (Combustible solids), WT (Solids that evolve toxic gas when wet) and WF (Solids that evolve flammable gas when wet). c.3) Is the cargo easily ignitable, combustible or flammable? Product it is not easily ignitable, but it is a flammable material. c.4) Does the cargo contribute to or accelerate a fire? As it is a solid fuel, it contributes to a fire, but does not accelerate it. c.5) Does the cargo self-heat? What causes the self-heating? Fungal or bacterial growth? Oxidation? Usually the product is not self-heating. Nevertheless self-heat may occur when in contact with water, as described in question c.6 below. c.6) Does the cargo react with water causing toxic or flammable gases to be released? Which gases? How toxic or flammable are the gases? What is the rate of evolution? With the addition of water, cargo could start a fermentation process leading to generation of asphyxiating and flammable gases. Fermentation process could generate carbon-monoxide (CO), carbon-dioxide (CO2), methane (CH4) and hydrocarbons with Permissible Exposure Levels (PEL) listed in the MSDS (section 4). c.7) Is the cargo toxic? Toxic by inhalation? Toxic by skin contact or ingestion? How toxic? Acute or chronic toxicity? Cargo is not toxic. c.8) Does the cargo exhibit any long-term health effects, such as carcinogenic, mutagenic or reprotoxic properties? No. c.9) Is the cargo a respiratory sensitizer? During handling dust can be generated that may cause respiratory problems if inhaled.
CCC 3/INF.11 Annex 1, page 4
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
c.10) Does the cargo contain known pathogens? No. c.11) Does the cargo react with water reaction causing corrosion? Corrosion to eyes, skin, or metal? What is the rate of corrosion? No. c.12) Is the cargo corrosive without water? Corrosion to eyes, skin, or metal? What is the rate of corrosion? Is the cargo Hazardous to the environment? No. Cargo without contact with water is not corrosive. c.13) Is the cargo hazardous to the environment? Cargo is not hazardous to the environment. c.14) Is the dust flammable or explosive? Dust is considered explosive (Group A), according to the DSEAR test MH/13/86, although dust is generated only during handling. c.15) Can the cargo deplete oxygen in cargo spaces and adjacent spaces? By how much? Yes, cargo may consume oxygen during storage as part of the normal degradation of typical biologic-based bulk cargoes. Oxygen in non-ventilated cargo spaces can be completely depleted in less than one week. c.16) Is the cargo incompatible with other cargoes or chemicals? Which cargoes or chemicals? We recommend the segregation of our product materials as classified in IMO 4.1 (flammable solids or substances). c.17) Can the cargo liquefy during voyage? What is the transportable moisture limit (TML) of the cargo? No.
CCC 3/INF.11 Annex 1, page 5
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
D – Operational questions d.1) How is the cargo loaded? Conveyor? Clam shell? Shiploader? The product will usually be loaded by shiploader, but grabs and conveyor may also be used. d.2) Does the cargo need to be trimmed? Cargo needs to be trimmed in accordance with section 4 and 5 of IMSBC code. d.3) What type of ship will be used? Bulk carrier? OBO? Self-unloading vessel? General cargo ship? Barge? Usually bulk-carrier vessels and where operationally possible general cargo ships. d.4) What experience do you have carrying the cargo in bulk by vessel? By road and rail? No shipments of this type of product have been made to date; however, it is expected that the cargo behaves similarly to the pellets produced from wood, which have been transported in bulk for several years. d.5) Have there been any incidents when transporting the cargo as a result of the cargo properties or hazards? No shipments of this type of product have been made to date. Nevertheless, some incidents have been reported to have happened when transporting wood pellets, especially in relation to oxygen depleted in spaces without air ventilation. Go back to question c.15 for more information. d.6) Are there any recommendations for tank or hold cleaning? Holds must be swept and dry. Drain all water from the basement.
CCC 3/INF.11 Annex 1, page 6
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
E – Emergency response questions e.1) In the event of a fire can the cargo be extinguished with water? CO2? Use the ship's own fire-fighting system. Exclusion of air may be sufficient to control the fire. Extinguish the fire with carbon dioxide, foam or water fog. e.2) In case of personal exposure what procedures should be followed? Eyes: Check if the victim is wearing contact lenses. In positive case, remove them and flush eyes with plenty of clean running water for at least 20 minutes, keeping eyelids separated. Preferably use an eyewash. Seek medical attention if irritation develops. Inhalation: If exposure occurs leave exposure area immediately. If irritation persists, seek medical attention. Skin: Itching for some people. Ingestion: Ingestion is considered unlikely. For advice, contact a doctor. Advice to Doctor: Emergency treatment, as well as medical treatment after overexposure, should focus on control of the set of the symptoms as a whole and will depend on the patient's clinical conditions. Treatment is symptomatic. Refer to the Medical First Aid Guide (MFAG), as amended. e.3) What happens in the event of an accidental release to water during transport? In case of accidental release of the cargo to water, it will become loose, breaking into fine biomass particles and degrading naturally.
CCC 3/INF.11 Annex 1, page 7
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
F – Testing questions f.1) Which hazards have been assessed? Explosivity and composition. f.2) Which tests were conducted? DSEAR, Gross and Net Calorific Value, Elementary Composition. Tests performed evaluated the basic components of the product: moisture content as well as ash content, melting point, dry matter etc. DSEAR test evaluated ignition, burning and explosivity. f.3) What were the results of these tests? DSEAR:
Composition and Calorific Value:
CCC 3/INF.11 Annex 1, page 8
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
f.4) What was the actual data from the tests? See previous information. f.5) How many tests were conducted? On average, we conducted 1 composition and calorific value test per month. f.6) What samples were tested? Are the samples representative of the cargo to be shipped? Samples came from both pilot and production plants. Sample tested represents the cargo to be exported; however, we have not yet started the consolidation process for the first shipment.
***
CCC 3/INF.11 Annex 2, page 1
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
ANNEX 2
MATERIAL SAFETY DATA SHEET
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:1
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 1: IDENTIFICATION OF THE MATERIAL AND SUPPLIER
Product Name: Sugarcane Biomass Pellet
Synonyms: Fuel Pellets, White Pellets, Sugarcane Biomass
Pellets, Bagasse Pellets and Straw Pellets.
Product appearance: Light blond to chocolate brown in colour,
Cylindrical with 10 to 50 mm long and 6 to 12
mm in diameter.
Recommended Use: Fuel, Animal bedding.
Supplier Name: Cosan Biomassa S A
Fazenda São José II, s/nº, Gleba A1,
Distrito de Potunduva - Jaú, SP - Brazil.
Telephone: + 55 19 3423 9759
Facsimile: + 55 19 3423 9754
Emergency: + 55 19 3403 2564
Important Notice: This material safety data sheet is issued by the supplier in accordance with good safety practices, health and environment. As such, information in it must not be altered, deleted
or added to. The supplier will issue a new MSDS when there is a change in product specifications, and/or regulatory
requirements. The supplier will not accept any responsability for any changes made to its MSDS by any other person or organisations.
SECTION 2: HAZARDS IDENTIFICATION Material Hazardous in Bulk (MHB)
CB (Combustible Solids), WT (Solids that evolve toxic gas when wet) and WF (Solids that
evolve flammable gas when wet).
Group B.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:2
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 3: COMPOSITION / INFORMATION ON INGREDIENTS
>>> PREPARATION: Chemical Nature: Polysaccharides
Feedstock Ingredient Proportion CAS Number
CELLULOSE 50 – 60% 9004-34-6
HEMICELLULOSE 20 – 25% 934-32-6
LIGNIN 20 – 25% 9005-53-2
SUGAR 2 – 4% 57-58-1
TRACE ELEMENTS Not Available
Not Available
WATER 07 – 10% Not Available
Additives None
Binders None
Many pellet products consist of a blend of sugarcane bagasse and sugarcane straw feedstock
which may affect the characteristics of the pellets. This MSDS includes the major differences
in the characteristics of the Dust from pure sugarcane bagasse and pure sugarcane straw
pellets.
SECTION 4: HEALTH HAZARD DATA Sugarcane Biomass Pellets emit dust and gaseous invisible substances during handling and
storage as part of the normal degradation of all biological materials. Ambient oxygen is
typically depleted during such degradation. The sizes of the particulate matter range from
crumbs to extremely fine airborne dust. The dust normally settles on surfaces over time.
Emitted gases are immediately diluted by the air in the containment and escape with
ventilation air. If the Sugarcane Biomass Pellets are stored in a containment which is not
ventilated (naturally or forced) the concentration of emitted gases, or the oxygen depletion,
may pose a health threat for humans present in the containment and the containment should
be ventilated and precautions should be taken as specified in this MSDS. The gases emitted
at normal indoor temperature include carbon-monoxide (CO), carbon-dioxide (CO2), methane
(CH4) and hydrocarbons with Permissible Exposure Levels (PEL) and symptoms as follows;
Entry Substance Permissible Exposure Level and symptom
Remedial action
Swallow Dust Dry Sensation, see Section 11 Rinse mouth Thoroughly with water. Do not induce vomiting.
Inhale Dust Coughing, dry throat. For toxicological data, see Section 11.
Rinse mouth Thoroughly with water. Do not induce vomiting.
Carbon monoxide (CO)
Toxic invisible and odorless gas. Living space TLV-TWA 9 ppmv (ASHRAE). Work space TLV-TWA 25 ppmv (OSHA).
If hygiene level is exceeded, evacuate and ventilate thoroughly, see Section IX for estimation of ventilation requirement.
50 ppmv Max 15 minutes.
200 Mild Headache. Evacuate.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:3
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
400 Serious Headache. Evacuate and seek
medical attention.
800 Dizziness, convulsion, unconscious in 2 hours, death 2-3 hours.
Evacuate and seek medical attention.
1600 Dizziness, convulsion, unconscious, death in 1 – 2 hours.
Evacuate and seek medical attention.
3200 Dizziness, convulsion, unconscious, death
in 1 hour.
Evacuate and seek medical attention.
6400 Dizziness, convulsion,
unconscious, death in 25 minutes.
Evacuate and seek medical attention.
12,800 Dizziness, convulsion, unconscious, death
in 1 - 3 minutes.
Evacuate and seek medical attention.
Carbon Dioxide (CO2)
Asphyxiating invisible and odorless gas. Occupational TLV-TWA 5,000 ppmv (OSHA).
If hygiene level is exceeded, ventilate thoroughly, see Section 11 for estimation of
ventilation
requirement.
Methane (CH4) Asphyxiating invisible and odorless gas.
Ventilate
Hydrocarbons See Section 11. Odor.
Ventilate
Oxygen depleted air
Oxygen level is normally 20.9 % at sea level in well ventilated
space. Minimum hygiene level is 19.5 % in work space (NIOSH)
If oxygen level is less than hygiene level,
evacuate and ventilate thoroughly.
Skin Contact
Dust Itching for some people. For toxicological data, see Section 5
and 9.
Remove contaminated clothing. Rinse skin
thoroughly with
water.
Eye Contact
Dust Tearing, burning. For toxicological data, see Section 5 and 9.
Flush with water and sweep out particles inward towards the
nose
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:4
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 5: FIRST AID MEASURES
Eye Contact: Check if the victim is with contact lenses. In
positive case, remove it and flush eyes with plenty of clean running water for at least 20 minutes, keeping eyelids separated. Preferably use an eyewash. Seek medical attention if irritation develops.
Inhale: If exposure occurs leave exposure area
immediately. If irritation persists, seek medical attention.
Skin Contact: Itching for some people.
Ingestion: Ingestion is considered unlikely. For advice, contact a doctor.
Advice to Doctor: Emergency treatment, as well as medical
treatment after overexposure should be directed to the control of the full picture of the
symptoms and depend on the patient's clinical conditions. Treatment is symptomatic.
Sugarcane Biomass Pellets are considered a benign product for most people. However,
individuals with a propensity for allergic reactions may experience reactions and should
contact their physician to establish the best remedial action to take if reaction occurs.
In case Sugarcane Biomass Pellets are not handled or stored in accordance with
recommendations in Section 8 the risk of harmful exposure increases, particularly exposure
to concentration of CO higher than stipulated. In case of exposure it is important to quickly
remove the victim from the contaminated area. Unconscious persons should immediately be
given oxygen and artificial respiration. The administration of oxygen at an elevated pressure
has shown to be beneficial, as has treatment in a hyperbaric chamber. The physician should
be informed that the patient has inhaled toxic quantities of carbon monoxide. Rescue
personnel should be equipped with self-contained breathing apparatus when entering
enclosed spaces with gas.
Carbon monoxide is highly toxic by means of binding with the hemoglobin in the blood to
form carboxyhemoglobin which cannot take part in normal oxygen transport, greatly
reducing the blood’s ability to transport oxygen to vital organs such as the brain.
Asphyxiating gases like carbon dioxide and methane (sometimes called simple asphyxiant)
are primarily hazardous by means of replacing the air and thereby depriving the space of
oxygen. Person exposed to oxygen depleted conditions should be treated the same as a
person exposed to carbon monoxide.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:5
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 6: FIRE FIGHTING MEASURES
Sugarcane Biomass Pellets is a fuel and by nature is prone to catch fire when exposed to
heat or fire. With the addition of water, cargo should start a fermentation process leading to
generation of asphyxiation and flammable gases. During handling of Sugarcane Biomass
Pellets there are three phases with various levels of stability, reactivity and decomposition
products:
- Solid intact Sugarcane Biomass Pellets;
- Crumbs or dust;
- Non-condensable (primarily CO, CO2 and CH4) and condensable gases (primarily aldehydes, acetone, methanol, formic acid);
Extinguishing a fire in Sugarcane Biomass Pellets require special methods to be successful as
follows;
General: - Restrict oxygen from entering the space
where the Sugarcane Biomass Pellets are stored. - Cover exposed pellets with foam or sand to
limit exposure to air.
Storage in enclosed space: - Seal openings, slots or cracks where
Sugarcane Biomass Pellet may be exposed to
air.
- Use the ship's own fire-fighting system.
Exclusion of air may be sufficient to control
the fire. Extinguish the fire with carbon
dioxide, foam or water fog.
- Inject nitrogen (N2) or carbon dioxide (CO2)
in gaseous form at the bottom or in the
middle of the pile of Sugarcane Biomass Pellet
or as close as possible to the fire if exposed.
N2 is preferred. Dosage of gas depends on the
severity of the fire. Recommended injection
speed is 5 – 10 kg/m²/hour (m² refers to the
cross section of the storage containment such
as a silo) with total injected volume
throughout the extinguishing activity of 5 – 15
Kg/m³ for less several fire and 30 – 40 kg/m³
for more advanced fires.
Storage in open flat storage: Cover the pile of Sugarcane Biomass Pellet
with foam or sand if available or spray water.
Dig out the pile to reach the heart of the fire
and remove effected material.
Material Safety data Sheet
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Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
During handling: - Restrict oxygen from entering the space
where the Sugarcane Biomass Pellets are
present.
- Cover the pile of Sugarcane Biomass Pellet
with foam or sand if available or spray water.
Dig out the material to reach the heart of the
fire and remove effected material.
SECTION 7: ACCIDENTAL RELEASE MEASURES If Sugarcane Biomass Pellets are released in a populated area, the material should be
removed by sweeping or vacuuming as soon as possible. Sugarcane Biomass Pellets are a
fuel and should preferably be disposed of by means of burning. Deposition of Sugarcane
Biomass Pellets or related dust should be such that gas from the material does not
accumulate.
In case of accidental release of the cargo to water, it will become loose, braking into fine
biomass particles and degrading naturally.
SECTION 8: HANDLING AND STORAGE Handling: Use safe work practices to avoid eye or skin contact
and inhalation. Observe good personal hygiene. Prohibit eating, drinking and smoking in contaminated
areas. Wash hands before eating. Remove
contaminated clothing and protective equipment before entering eating areas.
Avoid breakage caused by dropping the Sugarcane
Biomass Pellets. Be aware of potential dust generation during high pressure pneumatic handling of pellets.
Avoid friction generated by rough surfaces such as worn out conveyor belts as much as possible.
Suppress dust generation and accumulation at
transfer points and in areas close to mechanical moving parts which may dissipate heat.
Storage: For long period storage in large bulk containment
shall be as air tight as possible. Fires tend to migrate towards air (oxygen) supply. For shorter period open storage, ventilate to eliminate gas and odor. Protect the Sugarcane Biomass Pellets from contact with water and moisture to avoid swelling, increased off-gassing, increased microbial activity and subsequent self-heating. For large enclosed storage, label the
points of entry to storage containment or communicating spaces containing Sugarcane Biomass Pellets with a sign such as “Low Oxygen Risk Area, Ventilate thoroughly before Entry”.
Always protect Sugarcane Biomass Pellets and dust
from exposure to heat radiators, halogen lamps and
exposed electrical circuitry which may generate ignition energy and set off a fire or explosion.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:7
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
For large enclosed storage entry should be prohibited by means of secured lock and a well-established
written approval process for entry, only AFTER ventilation has been concluded and measurement with gas meter has confirmed safe atmosphere in the space. Alternatively, use self-contained breathing apparatus when entering space. Always make sure backup personnel are in the immediate vicinity monitoring the entry.
For Large storage spaces install water sprinklers. For smaller storage spaces, contact your local fire department for recommendations.
SECTION 9: EXPOSURE CONTROLS / PERSONAL PROTECTION
Exposure standards are established on the premise of an 8 hour work period of normal
intensity, under normal climatic conditions and where a 16 hour break between shifts exists
to enable the body to eliminate absorbed contaminants. In the following circumstances,
exposure standards must be reduced: strenuous work conditions; hot, humid climates; high
altitude conditions; extended shifts (which increase the exposure period and shorten the
period of recuperation).
Exposure Standards: An exposure standard has not been allocated to the ingredients contained in this product.
Ventilation: Ventilate thoroughly all communicating spaces before
entering. In the event the space is enclosed, always
measure both level of carbon monoxide and oxygen.
Use self-contained breathing apparatus if entry is
required before proper ventilation has been completed.
Personal Hygiene: Protective clothing (gloves, coveralls, boots, etc.)
should be worn to prevent skin contact. Wash contaminated clothing and other protective equipment before storing or re-using. Wear protective glasses and dust respirator. Wear gloves during continuous or repetitious penetration.
Eye Protection: When using large quantities or where heavy
contamination is likely, wear dust-proof goggles.
Skin Protection: PPE Wear PVC or rubber gloves and coveralls. Respiratory Protection: Where an inhalation risk exists, wear a Class P1
(Particulate) Respirator.
Smoking and Other Dusts: Smoking must be prohibited in all areas where
Sugarcane Biomass Pellet has being handle or storage areas.
NOTE: The recommendation for protective equipment
contained within this report is provided as a guide
only. Factors such as method of application, working environment, quantity used, product concentration and the availability of engineering controls should be
considered before final selection of personal protective equipment is made.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:8
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 10: PHYSICAL & CHEMICAL PROPERTIES
Appearance: Straw Like Solid Odor: Above +5ºC, fresh Sugarcane Biomass Pellet in bulk
smells like aldehydes in poorly ventilated space and more like fresh bagasse in ventilated space.
Trace Elements: Boron, calcium, chloride, copper, iron, magnesium, manganese, phosphorus, potassium, sodium and sulfur.
Additives/Binders: None
Vapour Pressure: Not Applicable Vapour Density: Not Applicable
Boiling Point: Not Applicable Ash Fusion Temperatures: Shrinkage starting temperature: 820°C
Deformation temperature: 870°C Hemisphere temperature: 1170°C
Flow temperature: 1300°C Solubility (water): If penetrated by water Sugarcane Biomass Pellets will
dissolve into its feedstock fractions.
Specific Gravity: Not Applicable
% Volatiles incl. moisture: 81,4% Dust Explosibility Classification: Group A - explosible Minimum Ignition Temperature of Dust Layer: 310°C
Lower Explosion Limit of Dust: 30 g/m3 Minimum Ignition Temperature of a Dust Cloud: 340°C SECTION 11: STABILITY & REACTIVITY
Chemical Stability: Stable Hazardous Polymerisation: Will not occur Incompatible Materials: Incompatible with strong oxidising agents.
Conditions to Avoid: Keep away from ignition sources, heat or flames.
Hazardous Decomposition Products: Burning can produce oxides of carbon, water and decomposition of hydrocarbons. Incomplete combustion can produce carbon
monoxide. During storage may be the
generation of gases that ignite spontaneously on contact with air.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:9
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
Off-gassing Emission of CO, CO2 and CH4 from Sugarcane
Biomass Pellets contained in a space is a
function of temperature, ambient air pressure,
bulk density, access to oxygen, relative
humidity in air (if ventilated) as well as the
age and composition of the raw material. The
emission rate in grams (g) of off-gassing per
tonne of stored Sugarcane Biomass Pellets
given below are from measurements of gas
generated within a sealed containment filled
with Sugarcane Biomass Pellets at
approximately constant pressure without
ventilation over a period of > 20 days. The
emission factors values are only valid for
sealed containment without sufficient oxygen
available to support oxidation of the
Sugarcane Biomass Pellets. The numbers
should not at any time be substituted for
actual measurements.
Non-ventilated (sealed) containment
Gas species
Temperature ºC
Emission factor (±10 %) g/tonne/>20 days
Carbon-monoxide (CO)
+20 12
+30 15
+40 16
+50 17
+55 17
Carbon-dioxide (CO2) +20 20
+30 54
+40 80
+50 84
+55 106
Methane (CH4) +20 0.2
+30 1.0
+40 1.3
+50 1.5
+55 1.9
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Ventilated containment
Gas species
Temperature ºC
Emission factor (±10 %) g/tonne/>20 days
Carbon-monoxide (CO)
+20 0.9
+30 2.2
+40 8.0
+50 18.0
+55 25.0
Carbon-dioxide (CO2) +20 1.3
+30 4.8
+40 17.0
+50 29.0
+55 119.0
Methane (CH4) +20 0.01
+30 0.04
+40 0.18
+50 0.38
+55 1.10
Oxidization It is believed oxidation of fatty acids contained
in the sugar material is the primary cause for depletion of oxygen and emission of gas species as exemplified above during storage of Sugarcane Biomass Pellets or related dust.
The depletion ratio is a function of temperature, pressure, bulk density, relative humidity in air (if ventilated) as well as the age and composition of the raw material. The numbers below are from measurements of gas generated within the space of the Sugarcane Biomass Pellets at approximately constant
pressure. The numbers should not at any time be substituted for actual measurements.
Temperature ºC (±10 %) Depletion of oxygen in %/24h
+20 0.7 – 1.2
+30
+40 1.5 – 2.5
+50
+55
Melting Temperature Not Applicable
Vaporization Emit hydrocarbons as vapors above +5ºC
Boiling Temperature Not Applicable
Flash Point Temperature Not Applicable
Auto-ignition Temperature Auto-ignite of Sugarcane Biomass Pellets at
temperatures > + 260ºC in the presence of
oxygen.
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Self-Heating Propensity to start self-heating in presence of
oxygen.
Bio-degradability 100%.
Corrosivity Not Applicable.
pH The potential for Hydrogen ions (pH) varies
depending on species of sugarcane.
Incompatibility Always segregate the Sugarcane Biomass
Pellets from oxidizing agents (e.g. poly-oxides
capable of transferring oxygen molecules such
as permanganate, per-chlorate) or reducing
agent (e.g. chemical compounds which
includes atoms with low electro-negativity
such as ferrous ions (rust), sodium ions
(dissolved sea salt)).
Swelling If penetrated by water Sugarcane Biomass
Pellet will swell about 3 to 4 times in volume.
Shock The mechanically integrity of Sugarcane
Biomass Pellets will degrade if exposed to an
external force as a result of for example a
drop in height.
Mechanical ware Sugarcane Biomass Pellets are sensitive to
friction between the Sugarcane Biomass
Pellets and a transportation causeway or
conveyor belt and may generate dust.
Explosibility Sieving of dust for testing purposes; 230
mesh < 63 μm.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:12
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 12: TOXICOLOGICAL & EPIDEMIOLOGICAL DATA
Health Hazard Summary: Low toxicity. No adverse health effects are anticipated with normal use of this product. However, if dust - fibres are generated irritation of the eyes and respiratory tract may result.
Eye: Low irritant. Over exposure to dust may result
in slight eye irritation.
Inhalation: Low irritant. Over exposure to dust may result
in slight respiratory tract irritation. If bagasse is stored in damp conditions, a mould (Thermoactinomycetes sacchari) may grow; it is this mould that can give rise to bagassosis (an influenza-like illness). Symptoms of bagassosis include dry cough, shortness of
breath and an inflammation of the lungs. Skin: Low irritant. Prolonged and repeated exposure
to dust may result in irritation and dermatitis. Swallowed: Accidental swallowing is unlikely in the
industrial setting. Due to product form and under normal conditions of use, ingestion is considered an unlikely exposure route.
NOTE: It should be noted that the effects from
exposure to this product will depend on several factors including: frequency and
duration of use; quantity used; effectiveness of control measures; protective equipment used and method of application. Given that it is impractical to prepare an alert report which would encompass all possible scenarios, it is anticipated that users will assess the risks and apply control methods where appropriate.
SECTION 13: ECOLOGICAL INFORMATION
Environment: Limited ecotoxicity data was available for this product at the time this report was prepared. Ensure appropriate measures are taken to prevent this product from entering the environment.
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:13
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 14: DISPOSAL INFORMATION
Waste Disposal: Reuse where possible. No special precautions
are required for this product.
Product not disposed to sewerage systems,
drains or waterways. Dispose of all waste containers and used drums in accordance with local authority guidelines. Suitable for incineration by approved agent under controlled conditions if permitted by local authorities, otherwise disposal must be in
accordance with local waste and
environmental authority requirements. Legislation: It is called the user's attention to the possible
existence of local regulations regarding
disposal concerning him.
SECTION 15: TRANSPORTATION INFORMATION
Road and Rail Transport Not classified as a Dangerous Good for the
transport of Dangerous Goods by Road and Rail.
UN number: None Allocated
Proper Shipping Name: None Allocated Class: None Allocated Subsidiary Risk: None Allocated
Packaging Group: None Allocated Hazchem Code: None Allocated EPG Incompatibilities: None Allocated Marine Transport (International
Maritime Dangerous Goods Code): Not classified as a Dangerous Good for the transport of International Maritime Dangerous
Goods Code. UN number: None Allocated
Proper Shipping Name: None Allocated Class: None Allocated Packaging Group: None Allocated Labeling: None Allocated
Marine pollutant: None Allocated Ems: None Allocated
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:14
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 16: REGULATORY INFORMATION
Regulations: EEC 67/548 Regulations: Not Regulated Poisons Schedule: A poison schedule number has not been
allocated to this product using the criteria in
the Standard for the Uniform Scheduling of Drugs and Poisons (SUSDP).
SECTION 17: ABBREVIATIONS USED IN THIS DOCUMENT ACGIH American Conference of Governmental Industrial Hygienists
AED Aerodynamic Equivalent Diameter
ASHRAE American Society of Heating Refrigerating and Air-conditioning Engineers
ATEX ATmosphere EXplosible
atm atmosphere pressure
bar 105 Pascal (Pa) or 100 kPa or 0.9869 atm
CCOHS Canadian Center for Occupational Health and Safety
CEN/TC European Committee for Standardization/Technical Committee Comité
Européén De Normalisation
g gram = 0.001 kg mg milligram = 0.000001 kg
mg milligram = 0.000001 kg
HS Harmonized System Code
IARC International Agency for Research on Cancer
IMO International Maritime Organization (UN)
m3 cubic meter
μm micrometer = 0.000001 meter
MSDS Material Safety Data Sheet
NTP National Toxicology Program
LEL Lower Explosible Limit (MEC=LFL=LEL)
LFL Lean Flammability Limit (MEC=LFL=LEL)
MEC Minimum Explosible Concentration (MEC=LFL=LEL)
NFPA National Fire Protection Association (USA)
NIOSH National Institute for Occupational Safety and Health (USA)
NTP Normal Temperature and Pressure (+20oC, 101.325 kPa or 1 atm)
OSHA Occupational Safety and Health Administration (USA)
PEL Permissible Exposure Level
ppmv parts per million on a volume basis. For example, 5,000 ppmv means 5,000
molecules per 1 million molecules of gas, which also corresponds to 0.5 %. A
concentration of 10,000 ppmv corresponds to 1 % of volume.
REL Recommended Exposure Limit
SCIS Shipper Cargo Information Sheet
sec second
STEL Short Term Exposure Limit
STP Standard Temperature and Pressure (0oC, 101.325 kPa or 1 atm)
TLV Threshold Limit Value
tonne 1000 kg
TWA Time weighted Average
Material Safety data Sheet
Product Name: Sugarcane Biomass Pellets Page:15
Date: 05/31/2016 Version: 0.3 CANCEL AND REPLACE VERSION: All Previous
SECTION 18: OTHER INFORMATION
Additional Information: The trace elements in this product include
boron, calcium, chloride, copper, iron, magnesium, manganese, phosphorus, potassium, sodium and sulfur.
NOTE: This sheet supplements the technical use, but
not replace them. The information contained herein is based on our knowledge of the
product in question to the publication date. They were prepared in good faith. It's called
the attention of users about the risks that were found when a product is used for purposes other than those known. This statement does not relieve in any case the user from knowing and applying all texts
governing his activity. It is your responsibility to take precautions concerning use of the product that he knows. The set of regulations mentioned is simply targeted to help the user to fulfill its obligations when using a dangerous product. This listing should not be
considered comprehensive. She does not exempt you from fulfilling other legal obligations concerning the storage and use of the product, besides those mentioned, for
which he is solely responsible.
CCC 3/INF.11 Annex 3, page 1
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
ANNEX 3
ANALYSIS REPORT
Date Sampled:
Date Received:
Test Date:
Date Reported: 643853
Our Ref:
Customer Ref:
Laboratory References
Sample Number:
6m Bottle:
72m Bottle:
Bio Bottle:
40151
Biofuel
10 February 2015 to 23 February 2015
23 February 2015
10 February 2015
31 December 2014 643853
Grade:
6
Supplier: CosanBairro CampestreArea 1Rio Das PedrasSP Brazil
Issue Number:
15/FEB/COA/643853Report Number:
Analysis Report
0001
BAGASSE PELLETS
CosanSite
Environmental Scientifics Group LimitedReg Office: ESG House, Bretby Business Park, Ashby Road, Burton upon Trent, DE15 0YZ
Incorporated in England:02880501
Report Authorised By:
Jonathan Clay
Head of Client Services
Page 1 of 4
Denotes calculated values using UKAS accredited resultsNon accredited method for this matrixSub contracted test UKAS accredited laboratorySub contracted test none UKAS accredited laboratoryCustomer Supplied Result
Analysis was undertaken at the following location(s):
Environmental Scientifics Group Limited, Bretby Business Park, Ashby Road, Burton upon Trent, DE15 0YZ.
This report may not be reproduced in part or full without the written permission of ESG.
For and on behalf of Environmental Scientifics Group
* ** *** ****#
Samples prepared using UKAS method SP19
Date Sampled:
Date Received:
Test Date:
Date Reported: 643853
Our Ref:
Customer Ref:
Laboratory References
Sample Number:
6m Bottle:
72m Bottle:
Bio Bottle:
40151
Biofuel
10 February 2015 to 23 February 2015
23 February 2015
10 February 2015
31 December 2014 643853
Grade:
6
Supplier: CosanBairro CampestreArea 1Rio Das PedrasSP Brazil
Issue Number:
15/FEB/COA/643853Report Number:
Analysis Report
0001
BAGASSE PELLETS
CosanSite
Units
MethodReference
Results Basis
As Received *
As Analysed Dry *
Dry Ash Free *Test
-CA2 % -3.4 -Analysis Moisture
1.5CA3 % -1.6 1.6Ash
7.6SP20 % -- -Total Moisture
77.4CA6 % 85.180.9 83.8Volatile Matter
0.06CA31 % 0.100.06 0.06Sulphur
17782CA11 kJ/kg 1956218590 19245Gross Calorific Value
16376* kJ/kg -- -Net Calorific Value
45.11CA9 % 49.6347.16 48.82Carbon
5.60CA9 % 6.165.85 6.06Hydrogen
-* % -- 43.08Oxygen
0.33CA9 % 0.360.35 0.36Nitrogen
13.5* % 14.914.1 14.6Fixed Carbon
Environmental Scientifics Group LimitedReg Office: ESG House, Bretby Business Park, Ashby Road, Burton upon Trent, DE15 0YZ
Incorporated in England:02880501
Page 2 of 4
Date Sampled:
Date Received:
Test Date:
Date Reported: 643853
Our Ref:
Customer Ref:
Laboratory References
Sample Number:
6m Bottle:
72m Bottle:
Bio Bottle:
40151
Biofuel
10 February 2015 to 23 February 2015
23 February 2015
10 February 2015
31 December 2014 643853
Grade:
6
Supplier: CosanBairro CampestreArea 1Rio Das PedrasSP Brazil
Issue Number:
15/FEB/COA/643853Report Number:
Analysis Report
0001
BAGASSE PELLETS
CosanSite
Reducing Atmosphere
1130deg C
I.D. Softening Hemisphere Flow
1010 1080 1100Ash Fusion Temperatures
Units
Method
Reference Results
**
Test
Environmental Scientifics Group LimitedReg Office: ESG House, Bretby Business Park, Ashby Road, Burton upon Trent, DE15 0YZ
Incorporated in England:02880501
Page 3 of 4
ICP Trace Metals
Date Sampled:
Date Received:
Test Date:
Date Reported: 643853
Our Ref:
Customer Ref:
Laboratory References
Sample Number:
6m Bottle:
72m Bottle:
Bio Bottle:
40151
Biofuel
10 February 2015 to 23 February 2015
23 February 2015
10 February 2015
31 December 2014 643853
Grade:
6
Supplier: CosanBairro CampestreArea 1Rio Das PedrasSP Brazil
Issue Number:
15/FEB/COA/643853Report Number:
Analysis Report
0001
BAGASSE PELLETS
Metal UnitMethod
Results Basis
As
Received *
As
Analysed
Dry *
CosanSite
Tin mg/kg < 0.5**** --
--END OF REPORT--
Environmental Scientifics Group LimitedReg Office: ESG House, Bretby Business Park, Ashby Road, Burton upon Trent, DE15 0YZ
Incorporated in England:02880501
Page 4 of 4
CCC 3/INF.11 Annex 4, page 1
https://edocs.imo.org/Final Documents/English/CCC 3-INF.11 (E).docx
ANNEX 4
IGNITION, BURNING RATE AND EXPLOSIVITY TESTING OF SUGAR CANE DUST