CANOLA OIL Chemical Properties

refractive index 

n20/D1.473

storage temp. 

room temp

solubility 

Soluble in chloroform and ether; practically insoluble in ethanol (95%); miscible with fixed oils.

Odor

at 100.00?%. bland

CAS DataBase Reference

120962-03-0

EPA Substance Registry System

Canola oil (120962-03-0)

Safety Information

WGK Germany 

3

HS Code 

1514990000

Hazardous Substances Data

120962-03-0(Hazardous Substances Data)

CANOLA OIL Usage And Synthesis

Chemical Properties

A clear, light yellow-colored oily liquid with a bland taste.

Chemical Properties

Yellow-brown liquid.

Definition

The oil obtained from rapeseed.

Production Methods

Canola oil is obtained by mechanical expression or n-hexane extraction from the seeds of Brassica napus (Brassica campestris) var. oleifera and certain other species of Brassica (Cruciferae). The crude oil thus obtained is refined, bleached, and deodorized to substantially remove free fatty acids, phospholipids, color, odor and flavor components, and miscellaneous nonoil materials.

Pharmaceutical Applications

Canola oil is a refined rapeseed oil obtained from particular species of rapeseed that have been genetically selected for their low erucic acid content. In pharmaceutical formulations, canola oil is used mainly in topical preparations such as soft soaps and liniments. It is also used in cosmetics.

Safety

Canola oil is generally regarded as an essentially nontoxic and nonirritant material, and has been accepted by the FDA for use in cosmetics, foods, and pharmaceuticals.
Rapeseed oil has been used for a number of years in food applications as a cheap alternative to olive oil. However, there are large amounts of erucic acid and glucosinolates in conventional rapeseed oil, both substances being toxic to humans and animals.
Canola oil derived from genetically selected rapeseed plants that are low in erucic acid content has been developed to overcome this problem. The FDA specifies 165.55 mg as the maximum amount for each route or dosage form containing the ingredient.
Feeding studies in rats have suggested that canola oil is nontoxic to the heart, although it has also been suggested that the toxicological data may be unclear.

storage

Canola oil is stable and should be stored in an airtight, lightresistant container in a cool, dry place. The USP32–NF27 specifies that contact between canola oil and metals should be avoided. Containers should be filled to the top, while partially filled containers should be flushed with nitrogen. During storage, grassy, paintlike, or rancid off-flavors can develop.
Flavor deterioration has been attributed mainly to secondary oxidation products of linolenic acid, which normally makes up 6–14% of the fatty acids in canola oil. Storage tests of canola oil showed sensory changes after 2–4 days at 60–658℃ in comparison to 16 weeks at room temperature. Canola oil seems to be more stable to storage in light than cottonseed oil and soybean oils, but is less stable than sunflower oil. In addition, the effects of various factors on sediment formation in canola oil have been reported.
It has been reported that oils stored at 28℃ showed the highest rate of sediment formation, followed by those stored at 68℃. All samples showed little sediment formation, as measured by turbidity, during storage at 128℃. Removal of sediment from canola oil prior to storage by cold precipitation and filtration did not eliminate this phenomenon, which still developed rapidly at 28℃.
A study on the effect of heating on the oxidation of low linolenic acid canola oil at frying temperatures under nitrogen and air clearly showed that a significantly lower development of oxidation was evident for the low linolenic acid canola oil. Reduction in the linolenic acid content of canola oil reduced the development of room odor at frying temperatures.
The thermal oxidation of canola oil studied during oven heating revealed an increase in peroxide values of pure and antioxidant- treated oils. Peroxide values were shown to differ between pure and antioxidant-treated canola oil during the initial stages of microwave heating (6 minutes). Formation of secondary products of oxidation, which contribute to off-flavors, were also observed.

Regulatory Status

Accepted for use by the FDA in cosmetics and foods. Included in the FDA Inactive Ingredients Database (oral capsules). Included in the Canadian List of Acceptable Non-medicinal Ingredients.

CANOLA OIL(120962-03-0)Related Product Information

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• SALCOMINE
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• TRIS(2,2,6,6-TETRAMETHYL-3,5-HEPTANEDIONATO)DYSPROSIUM(III)
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