Coconut Oil

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Infobox on Coconut Oil
Example of Coconut Oil
Coconut oil 31376083.JPG
Facts
Origin This Table shows only a selection of the most important countries of origin and should not be thought of as exhaustive.
Density (in t/m3) {{{density}}}
Temperature (in oC)
  • Europe
  • Africa: East Africa
  • Asia: Malaysia, Philippines, Indonesia, Sri Lanka
  • America
  • Australia
Density
  • 0.919 - 0.937 cm3
  • 0.925 - 0.931 cm3
  • 0.920 cm3
Humidity / moisture Fats and fatty oils are insoluble in water. However, contact with water may give rise to soluble lower fatty acids and glycerol, which cause rancidity together with changes in color (yellow to brown), odor and taste as well as gelling and thickening. For this reason, the tanks must be absolutely dry after cleaning.
Ventilation Ventilation must not be carried out under any circumstances, as it would supply fresh oxygen to the cargo, which would promote oxidation processes and premature rancidity.
Self-heating / spontaneous combustion -
Risk factors The oil may ignite spontaneously in conjunction with sawdust or material residues.
Coconut oil exhibits only a slight tendency to evaporate. Losses due to adhesion of the cargo to the tank walls are minimal (< 0.3%), because coconut oil is a nondrying oil.

Coconut Oil

Description

"Oils" is a collective term for more or less viscous, generally organic-chemical liquids. Depending on their chemical composition, a distinction may be drawn between fatty, essential, mineral and silicone oils. Fatty oils include liquid, semisolid and solid products of vegetable and animal origin. They are also known as sweet oils.

Coconut oil is of vegetable origin and is obtained from the copra of the coconut palm. It has the consistency of fat and is therefore also known as coconut butter. It is a white to slightly yellowish oil, with a pleasant odor when fresh but a rancid odor when old. Fresh coconut oil has a pleasant taste.

The acid value of an oil may be used as a measure of quality. However, the acid value of the oil must not be too high, as this denotes an excessively high content of free fatty acids, which causes the oil to turn sour. Discoloration may also occur. Coconut oil should have an acid value of at most 1.0 - 2.0%.

Oils and fats spoil by readily becoming rancid. Rancidity is promoted by light, atmospheric oxygen and moisture and leads to changes in odor and taste. Thus, the tanks and barrels must be filled as full as possible, taking into consideration the coefficient of cubic expansion (see Density), so that as little ullage space as possible is left above the cargo. Do not load rancid oil, since it does not meet quality requirements.

Do not accept for loading coconut oil contaminated by ferrous and rust particles or by seawater.

Maximum duration of storage is as follows:

Temperature Max. duration of storage
24°C 6 months

Applications

Coconut oil is used in margarine and soap production and in the food industry (as a substitute for dairy products).

Shipment/Storage

To be able to pump the oil out of the tanks, it must be at the required pumping temperature. This is only possible, however, if the oil has been kept liquid during the voyage (above a minimum temperature). Loading, travel and pumping temperatures must be precisely complied with, since any change in consistency which occurs during transport may prove irreversible.

If the oil solidifies in the tanks, it cannot be liquefied again even by forced heating. In the vicinity of the heating coils, the oil melts, scorches, discolors and becomes rancid.

Pumping out may be difficult in cold weather. The oil may cool too rapidly in the long lines and solid deposits form on the outer walls, which cannot be pumped out and prevent the still liquid cargo from reaching the suction valve. This problem can be solved by appropriate heating or insulation of the lines.

Where the oil is packaged in barrels, the latter have to be handled with appropriate care. Damaged barrels quickly lead to oil leakage and thus to loss of volume or to damage to other parts of the cargo.

All fats and oils have a particular density (approx. 0.9 g/cm3). With a rise in temperature, however, density diminishes, thereby leading at the same time to an increase in volume. This behavior is described by the coefficient of cubic expansion and is known as thermal dilatation.

The coefficient of cubic expansion amounts to: g = approx. 0.00072°C-1

As a rule of thumb, oils may be expected to increase in volume by 1% of their total volume for each 14°C temperature increase. In particular in the case of oils requiring heating, such as coconut oil, the ullage space must be calculated accordingly.
When filling the barrels or tanks, attention must however be paid to the expansion behavior of the cargo in the event of a rise in temperature (risk of bursting of barrels).

In the case of liquid cargoes, it is important for the ullage space above the cargo to be as small as possible, so that only slight movement of the cargo is possible. Movement in liquid cargoes may have a negative effect on the stability of the means of transport (e.g. during cornering in the case of trucks and trains or when ships roll and pitch).

Barrels have to be secured in such a way that they cannot slip in the hold or on the loading area and suffer damage.

Temperature
Coconut oil requires particular temperature conditions.

A written heating order must be obtained from the consignor before loading is begun. This order must always be complied with during the entire transport chain.

The solidification temperature is of considerable significance in the transport of fatty oils and fats. They must remain liquid during loading, during the voyage and during unloading. Chill haze (separation) begins if cooling causes the temperature of the oil to approach solidification point, the oil becoming ointment-like and finally solid, such that it is no longer pumpable.

Separation and the associated change in consistency from liquid to solid occurs more readily upon cooling, the higher is the solidification point.

The oils must only be heated by a few °C per day, otherwise the risk of rancidity and other negative changes arises.

The following Table merely constitutes a rough estimate of appropriate temperature ranges. Temperatures may deviate from these values, depending on the particular transport conditions.

Designation Temperature
Loading temperature 35°C
Favorable travel temperature 24°C
25°C
27 - 32°C
Solidification temperature 14 - 25°C
approx. 25°C
Pumping temperature > 55°C
45°C
40 - 45°C

Designation Temperature range Loading temperature 35°C

Favorable travel temperature 24°C

                                                              25°C 	
                                                              27 - 32°C 	

Solidification temperature 14 - 25°C

                                                             approx. 25°C 

Pumping temperature > 55°C

                                                              45°C 	
                                                              40 - 45°C 	

Phase changes: at 25°C coconut oil thickens, at 21 - 14°C it hardens and solidifies.

The rate of heating should be no greater than 8°C/day.

The travel temperature must be complied with as far as possible during transport, to minimize oxidation processes. Towards the end of the voyage, the temperature of the oil must be slowly raised to the appropriate pumping temperature.

Unless otherwise recommended by the consignor, the following plan may, for example, be used for heating:

1st day heat to 27°C 2nd day heat to 30°C 3rd day heat to 38°C 4th day heat to 46°C 5th day heat to 55°C and keep at 55 - 60°C until port of discharge.

Too great or rapid an increase in temperature entails considerable losses in quality.

Humidity/Moisture
Fats and fatty oils are insoluble in water. However, contact with water may give rise to soluble lower fatty acids and glycerol, which cause rancidity together with changes in color (yellow to brown), odor and taste as well as gelling and thickening. For this reason, the tanks must be absolutely dry after cleaning.

Ventilation
Ventilation must not be carried out under any circumstances, as it would supply fresh oxygen to the cargo, which would promote oxidation processes and premature rancidity.

Biotic activity
Coconut oil displays 3rd order biotic activity.

It belongs to the class of goods in which respiration processes are suspended, but in which biochemical, microbial and other decomposition processes still proceed.

Care of the cargo during the voyage must be aimed at keeping decomposition processes to a low level.

Gases Before anybody enters an empty tank, it must be ventilated and a gas measurement carried out. Oxidation processes may lead to a life-threatening shortage of O2.

Risk factors

Self-heating / Spontaneous combustion The oil may ignite spontaneously in conjunction with sawdust or material residues.

Odor Active behavior Coconut oil has a pleasant odor when fresh but a rancid odor when old. Passive behavior Since coconut oil is used in the food sector, care must be taken to ensure that it is not odor-tainted by other goods.

Contamination Active behavior Leaking oil leads to massive contamination and may make whole cargoes unusable.

Of considerable significance with regard to tank cleaning is the iodine value, which is a measure of how strong a tendency the oil has to oxidation and thus to drying. Drying is particularly detrimental to tank cleaning, as the oil/fat sticks to the walls and can be removed only with difficulty. On the basis of drying capacity , oils are divided into nondrying, semidrying and drying oils.

With an iodine value of 7 - 10, coconut oil is a nondrying oil, which means that it does not dry significantly on contact with atmospheric oxygen and the tanks are easily cleaned. Passive behavior Coconut oil is sensitive to contamination by ferrous and rust particles and water (especially seawater), therefore rub the tanks with coconut oil before loading and allow to dry.

Contamination with foreign substances is a particular risk, especially because coconut oil is used in the food sector. The tanks or barrels must be clean and in a thoroughly hygienic condition before filling.

Mechanical influences In the case of transport in barrels, extreme mechanical stresses, such as dropping, tipping over or bumping, may lead to breakage of the barrels and thus to leakage.

Toxicity / Hazards to health Before anybody enters a tank, it must be ventilated and a gas measurement carried out. Oxidation processes may lead to a life-threatening shortage of O2.

Shrinkage/Shortage Where this oil is packaged in barrels, weight loss from leakage is always to be expected.

Coconut oil exhibits only a slight tendency to evaporate. Losses due to adhesion of the cargo to the tank walls are minimal (< 0.3%), because coconut oil is a nondrying oil.


Note: (Source including Transport Information Service of the GDV)