Specification Free Fatty Acid: A1V1.25% Max Moisture and Volatile matters: 0.20% Max special Impurities: 0,10% Max Lecithin (Expressed in Phosphor: ).0.02% Max Sediment (Gardner Break test): 0.10% Max Unspecified material: 1.50% Max Colour: 50 Yellow Max/5 Red Max Oil Flash Point: 250=BA F Min Ca+Mg Content: 5 ppm Max Linolenic Acid: 12% Max Polyunsatur: 3D 4 Double=bonds Methyl Esthers: 1% Max Unsaponificable: 2% Max Sulfur Content: 10ppm Max The soybean (Glycine max (L.) Merrill) has become one of the most used agricultural products in the world as an ingredient in human and animal nourishment. One important product obtained from soybean is its oil, considering that the grain contains around 18-21 wt% of oil. This book reviews the uses, properties and role in human health of soybean oil. Chapter One explores feasible spectroscopy procedures which could be handled through chemometric methods in the evaluation of soybean oils. Chapter Two describes the synthesis of plastic foams based on epoxidized soybean oil, which were further reinforced with short sisal fibers to yield completely biodegradable natural polymer foam composite material. Chapter Three reviews the uses and properties of soybean oil and describes the authorsâ?? clinical experience in this role in human health. Chapter Four discusses the effects of fresh and heated soybean oil on cardiovascular disease which includes dyslipidemia, hypertension, and coronary heart disease
Chemical test: a. Acid value: Maximum 0,2 b. Equal to FFA as Lauric Acid: Maximum 0,1 c. Color Lovibond 51/4â?³ cell: Red Maximum 2,5 & Yellow Maximum 25 d. Iodine value: 56-64 e. Saponification value: 195-205 f. Refractive Index at 40 C: 1.4600-1.4610 g. Peroxide value: Maximum 1 h. Kreis test: Negative i. Could Point: Maximum 7 C Palm oil is an edible vegetable oil high in saturated fats and free of trans fats. The oil palm tree (Elaeis guineensis) is a native to West Africa and was imported into SE Asia in the mid 19th century. Oil palm flourishes in the humid tropics and produces high yield when grown 10 degrees north and south of the equator. Palm fruit develops in dense bunches weighing 10 kilograms (kg) or more and containing more than a thousand individual fruits similar in size to a small plum which tree produces 2 types of oil.� Palm oil (PO) is obtained from the flesh of the fruit and Palm Kernel Oil (PKO) is produced by extracting the oil from the internal seed (Kernel). Every oil palm tree requires approximately 3m diameter clear around the base of each tree to allow full growth.� Oil palm is highly productive crop which is capable of yielding more oil from less land than any other vegetable oil in existence. One oil palm tree will produce ongoing fruit for up to 30 years deeming the crop as high yielding and sustainable..
Chemical Specifications Parameters Specific Gravity at 25 C 0915-0922 Refractive Index at 25 �° C 1.47-1474 Iodine number 103-128 Free fatty acid <0.1% Moisture 0.0% Max Appearance Crisp and vibrant Smell and taste Odorless, odorless and soft Corn oil (maize oil) is oil extracted from the germ of corn (maize). Its main use is in cooking, where its high smoke point makes refined corn oil a valuable frying oil. It is also a key ingredient in some margarines. Corn oil is generally less expensive than most other types of vegetable oils. Corn oil is also a feedstock used for biodiesel. Other industrial uses for corn oil include soap, salve, paint, erasers, rustproofing for metal surfaces, inks, textiles, nitroglycerin, and insecticides. It is sometimes used as a carrier for drug molecules in pharmaceutical preparations. Almost all corn oil is expeller-pressed, then solvent-extracted using hexane or 2-methylpentane (isohexane).[1] The solvent is evaporated from the corn oil, recovered, and re-used. After extraction, the corn oil is then refined by degumming and/or alkali treatment, both of which remove phosphatides. Alkali treatment also neutralizes free fatty acids and removes color (bleaching). Final steps in refining include winterization (the removal of waxes), and deodorization by steam distillation of the oil at 232 260 C (450-500 F) under a high vacuum.
Corn oil (maize oil) is oil extracted from the germ of corn (maize). Its main use is in cooking, where its high smoke point makes refined corn oil a valuable frying oil. It is also a key ingredient in some margarines. Corn oil is generally less expensive than most other types of vegetable oils. Corn oil is also a feedstock used for biodiesel. Other industrial uses for corn oil include soap, salve, paint, erasers, rustproofing for metal surfaces, inks, textiles, nitroglycerin, and insecticides. It is sometimes used as a carrier for drug molecules in pharmaceutical preparations. Almost all corn oil is expeller-pressed, then solvent-extracted using hexane or 2-methylpentane (isohexane).[1] The solvent is evaporated from the corn oil, recovered, and re-used. After extraction, the corn oil is then refined by degumming and/or alkali treatment, both of which remove phosphatides. Alkali treatment also neutralizes free fatty acids and removes color (bleaching). Final steps in refining include winterization (the removal of waxes), and deodorization by steam distillation of the oil at 232-260 C (450-500 F) under a high vacuum.