Seed Waste
| Infobox on Seed Waste | |
|---|---|
| Example of Seed Waste |  |
| Facts | |
| Origin | Chiefly South America, Asia |
| Stowage factor (in m3/t) | 1,39 to 2,09 (m3/t) |
| Angle of repose | Not applicable |
| Humidity / moisture | See text |
| Oil content | See text |
| Ventilation | - |
| Risk factors | - |
Seed Waste
Contents
Description
Seed Waste (further referred to as Seedcake) is the residue remaining after the removal of oil from any oil-bearing seeds, cereals and cereal products, and any other commodities with similar properties. This is achieved by mechanical crushing or by a process known as solvent extraction. Seedcake is a by-product of the production of vegetable oils from the oil-bearing seeds or grains, and is principally used as an animal feed or fertiliser.
With some exceptions (for example, solvent-extracted seedcake with low-residual oil and moisture, which is not regarded as hazardous), seedcake is a hazardous cargo that can self-heat owing to the presence of moisture, residual oil or both. Although the self-heating process is slow, it can cause the bulk temperature of the cargo to rise to the point at which it ignites spontaneously. The shipper is required, according to the provisions of the IMSBC Code, to provide a certificate from a
person recognised by the competent authority of the country of shipment confirming the oil and moisture content of the shipment,
on the basis of which the UN number of the cargo is determined.
The moisture content of a seedcake cargo is relevant since high moisture content promotes microbiological activity, which may be
responsible for the initial rise in temperature up to about 70ºC and deterioration in the quality of the seedcake. This activity alone will not cause the seedcake to ignite, but it will accelerate oxidation of the residual oil, which in turn can cause the temperature to rise sufficiently to the point at which the seedcake will spontaneously ignite.
According to the IMSBC Code, seedcake derived from solvent extraction has an additional hazard arising from residual flammable
solvent mixed in the cargo. Seedcake determined to be non-hazardous, and certified as such, is non-combustible and has a low fire risk.
It is important to measure the cargo temperature before and after loading, and during carriage to ensure that incipient signs of self-heating are detected and appropriate action can be taken. Digital thermometers of the type shown below are employed for this purpose.
There are four types of seedcake listed in the IMSBC Code defined by the oil and moisture content and the method of
production. These are summarised below :
- Mechanically expelled seeds, containing more than 10% of oil or more than 20% of oil and moisture combined.
- Solvent extractions and expelled seeds, containing not more than 10% of oil and when the amount of moisture is higher than 10%, not more than 20% of oil and moisture combined.
- With not more than 1.5% oil and not more than 11% moisture.
- NON-HAZARDOUS
Solvent-extracted rape seed meal, pellets, soya bean meal, cotton seed meal and sunflower seed meal, containing not more
than 4% oil and 15% oil and moisture combined and being substantially free from flammable solvents.
Seedcake is usually transported as a dry bulk cargo, in the form of pulp, meal, cake, pellets and expellers.
Self-heating and spontaneous combustion
The main hazard of seedcake cargo is the risk of self-heating and spontaneous combustion. Ships carrying hazardous cargo are
required to have on board a valid document of compliance confirming the ship’s suitability for carrying dangerous goods.
Self-heating leading to spontaneous combustion in a cargo of seedcake can be triggered by microbiological activity or exposure to a source of elevated temperature in the hold or both.
As with other dangerous goods, the IMSBC Code requires hazardous seedcakes to be kept as cool and dry as reasonably
practicable, and stowed away from all sources of heat or ignition.
Sources of heat and ignition include:
• hot fuel oil tanks
• hot fuel oil lines
• hold lights left on
• poor electrical wiring
• carelessly discarded smokers’ materials
• engine room bulkheads
Documentation
The shipper/charterer shall provide the master or his representative with appropriate information on the cargo sufficiently
in advance of loading to enable the precautions that may be necessary for the safe loading and the proper stowage and safe
carriage of the cargo to be put into effect.
When the master is instructed to load a cargo that he is not familiar with, the master should request further information from the owner/operator or charterer.
Cargo information shall be confirmed in writing and by appropriate
shipping documents prior to loading.
Documentation required on board a ship carrying dangerous goods
• Stowage plan
Each ship carrying dangerous goods in solid form in bulk shall have a special list or manifest setting forth the dangerous goods
on board and the location thereof, in accordance with Safety of Life at Sea (SOLAS) regulations. A detailed stowage plan,
which identifies by class and sets out the location of all dangerous goods onboard, may be used in place of such a special list or manifest.
• Emergency response
When dangerous goods in solid form in bulk are carried, appropriate instructions on emergency response to incidents involving the cargo shall be onboard.
• Certificate of fitness for ships carrying dangerous goods
Cargo ships of 500 gross tonnage and over, constructed on or after 1 September 1984, and cargo ships of less than 500 gross
tonnage, constructed on or after 1 February 1992, shall have a certificate of fitness when carrying dangerous goods in solid form in bulk, except for class 6.2 and class 7 goods.
Due to their oil and moisture content, this cargo can present a significant fire risk due to self-heating and spontaneous combustion.
Reference is made to the relevant IMO publications of hazardous cargo.
Full information on this product is in the process of completion.