Inhaltsangabe
                  1 Meat lipids.- 1.1 Introduction.- 1.2 Coronary heart disease (CHD).- 1.2.1 Will dietary change decrease CHD?.- 1.2.2 Cholesterol consumption.- 1.2.3 Fat consumption.- 1.2.4 Meat lipids and plasma cholesterol.- 1.2.5 Lean meat.- 1.3 Triacylglycerols.- 1.3.1 Pigs.- 1.3.2 Effect of diet.- 1.3.3 Lean pigs.- 1.3.4 Cattle and sheep.- 1.3.5 Effect of diet.- 1.3.6 Effect of leanness.- 1.4 Lipid consistency.- 1.5 Organoleptic properties.- 1.5.1 Intramuscular triacylglycerols.- 1.5.2 Intramuscular phospholipids.- 1.5.3 Autocatalytic autooxidation.- 1.5.4 Haem iron and non-haem iron.- 1.5.5 Role of phospholipids in rancidity.- 1.6 Cholesterol.- 1.7 Conclusion.- References.- 2 Marine (n-3) polyunsaturated fatty acids.- 2.1 Introduction.- 2.2 Origins and composition of marine fish oils.- 2.3 Speciality marine oils rich in (n-3) PUFA.- 2.4 Concentration of (n-3) PUFA from marine oils.- 2.5 Concluding remarks.- References.- 3 Confectionery fats.- 3.1 Introduction.- 3.2 Cocoa butter.- 3.3 Confectionary fats.- 3.4 Hard butters.- 3.4.1 Lauric cocoa butter substitutes.- 3.4.2 Non-lauric cocoa butter substitutes.- 3.4.3 Cocoa butter equivalents.- 3.5 Availability of raw materials.- References.- 4 Derivatives or long-chain ratty acids.- 4.1 Introduction.- 4.2 Testing methods.- 4.2.1 Test method for corrosion resistance.- 4.2.2 Surface tension.- 4.2.3 Friction coefficients.- 4.2.4 Welding load.- 4.2.5 Practical tests.- 4.2.6 Microbial activity tests.- 4.3 Results and discussion.- 4.3.1 Additives from higher fatty acids.- 4.3.2 Additives from dibasic acids.- 4.3.3 Additives from aromatic carboxylic acids.- 4.3.4 Fluorine compounds from hydroxyl fatty acids and related compounds.- 4.3.5 Practical tests.- 4.3.6 Antimicrobial properties.- 4.4 Experimental.- 4.4.1 Reaction of undecylenic acid (I) with cycIohexanone (II).- 4.4.2 Reaction of 2-(1-hydroxy-l-cycIohexyl)-10-undecenoic acid (III) with p-toluenesulfonic acid.- 4.4.3 Reaction of undecylenic acid (I) with mecaptoacetic acid.- 4.4.4 10, 11-Dichloromethylene undecanoic acid (VII).- 4.4.5 Reaction of linoleic acid (VIII) with maleic anhydride.- 4.4.6 12-Isovaleroyloxy stearic acid (XI).- 4.4.7 Monoethylester (XIII) of sebacic acid (XII) (1 ,8-octanedicarboxylic acid).- 4.4.8 Aromatic carboxylic acid derivatives.- 4.4.9 Reaction of methyl ricinolate (XIV) with PPDA.- 4.4.10 Reaction of2,3-dibromo-l-propanol (XVII) with PPDA.- 4.4.11 Reaction of glycerol ?-monoallylether (XIX) with PPDA.- 4.4.12 Preparation of adducts of amino alcohols with boric anhydride.- 4.4.13 Preparation of a sample solution for a water-soluble cutting fluid.- Acknowledgements.- References.- Further reading.- 5 Sunflowerseed oil.- 5.1 History.- 5.2 Sunflower breeding.- 5.3 Oil composition.- 5.4 Waxes.- 5.5 Phospholipids.- 5.6 Tocopherols.- 5.7 Food use.- 5.8 Sunflower oil as an alternative fuel.- 5.9 Oleochemicals.- References.- 6 Developments in palm oil.- 6.1 Introduction.- 6.2 Biological aspects.- 6.3 Palm oil quality.- 6.4 Characteristics of palm oil.- 6.4.1 Physical characteristics.- 6.4.2 Chemical characteristics.- 6.5 Characteristics of palm kernel oil and palm oil fractions.- 6.5.1 Palm kernel oils.- 6.5.2 Fraction of palm oil.- 6.6 Production of palm oil and palm oil products.- 6.6.1 Milling.- 6.6.2 Refining and processing.- 6.7 Uses of palm oil and its products.- 6.7.1 Food uses of palm oil.- 6.7.2 Non-food uses.- 6.8 Nutritional aspects of palm oil.- 6.9 Effluent in the palm oil industry.- 6.9.1 Palm oil mill effluent.- 6.9.2 Palm oil refinery waste.- 6.9.3 Waste from the oleochemical industry.- 6.9.4 Future developments.- References.- 7 Lipids and oxygen: is rancidity avoidable in practice?.- 7.1 Introduction.- 7.2 Guidelines.- 7.2.1 Antioxidants.- 7.2.2 Effect of temperature.- 7.2.3 Reduction of access of air.- 7.2.4 Use of metal deactivators and antioxidants.- 8 Crystallisation of fats.- 8.1 Introduction.- 8.2 Basic principles.- 8.3 Supersaturation.- 8.4 Nucleation.- 8.5 Growth.- 8.6 Crystal size, habit and po...
                                                  
                                            Reseña del editor
                                      
                  Sunflower oil as an alternative fuel is one example of new and potential applications of oils and fats explored for such areas as foods, cosmetics, pharmaceuticals, detergents, and lubricants. Describes the sources, processing, application potential, and advantages and limitations of meat lipids, marine fatty acids, cocoa butter, derivatives of long-chain fatty acids, and sunflower seed and palm oil. Also discusses rancidity, crystallization, and infrared spectroscopy. Addressed primarily to scientists and technologists, but some topics might catch the interest of senior non-technical managers. Annotation copyright Book News, Inc. Portland, Or.
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