MARGARINE PRODUCTION USING OIL BLENDS FROM PALM KERNEL COCONUT AND MELON
Table Of Contents
- Title PageApproval PageDedication Acknowledgement Table Of Content AbstractChapter One1.0 IntroductionChapter Two2.0 Literature Review2.1 Fats And Oils2.
- 1.2Importance Of Fats And Oils2.
- 1.3Fats As Food2.
- 1.4Essential Fatty Acids2.
- 1.5Classification Of Fats And Oils2.
- 1.6Composition Of Seed Oils2.
- 1.7Tropical Oil Seeds2.
- 2.0Palm Kernel, Coconut And Melon2.
- 2.1Coconut2.
- 2.2Melon 2.
- 2.3General Methods Of Extracting Seed Oils2.
- 2.4Refining And Processing Of Seed Oils2.
- 2.5Hydrogenation2.
- 2.6Storage Of Processed Oil2.
- 2.7Rancidity2.
- 2.8Functions Of Additives Used2.
- 2.9Components Contributing Flavour And Colour2.
- 3.0MargarineChapter Three3.0 Materials And Methods3.1 Source Of Material3.
- 2.1Refining Procedure3.3 Determination Of The Specific Gravity3.
- 3.1Determination Of Yield 3.
- 3.2Determination Of Moisture Content3.4 Method Of Chemical Analysis On The Oils3.
- 4.1Provide Value Determination 3.
- 4.2Free Fatty Determination 3.
- 4.3Determination Of Iodine Value3.
- 5.0Recipe For The Product 3.
- 6.0Production Of Margarine3.
- 7.0Methods Of Analysis Of Margarine3.
- 8.0Sensory EvaluationChapter Four4.0 Results And Discussion4.1 Conclusion
- 4.2DiscussionChapter Five5.0 Conclusion And Recommendation
- 5.1Conclusion
- 5.2Recommendation ReferencesAppendices
Project Abstract
This research project focuses on the production of margarine using oil blends derived from palm kernel, coconut, and melon. Margarine is a popular butter substitute used in baking, cooking, and as a spread due to its lower cost and longer shelf life. The use of oil blends from palm kernel, coconut, and melon in margarine production presents an opportunity to create a product with a unique blend of properties such as improved flavor profile, texture, and nutritional benefits. The project will involve the extraction of oils from palm kernel, coconut, and melon seeds through mechanical pressing or solvent extraction methods. The extracted oils will then be blended in varying proportions to optimize the desired characteristics for margarine production. The blending process will be followed by refining, deodorization, and other necessary processing steps to ensure the final product meets quality standards. The properties of the oil blends will be analyzed to determine their fatty acid composition, melting point, oxidative stability, and other relevant parameters. These analyses will provide insights into the potential functionality of the blends in margarine production and help in selecting the most suitable blend ratios for the desired product characteristics. The margarine production process will involve emulsification of the oil blend with water, salt, emulsifiers, and other additives to create a stable emulsion. The emulsion will then be cooled and crystallized to form a solid margarine product. The final margarine will be evaluated for its physical properties such as texture, spreadability, and melting behavior, as well as its sensory attributes like taste and aroma. The research project aims to develop a margarine product with improved sensory and nutritional qualities compared to conventional margarines on the market. By utilizing oil blends from palm kernel, coconut, and melon, the project seeks to create a margarine that offers a unique flavor profile and enhanced health benefits. The findings from this study could potentially lead to the development of innovative margarine products that cater to consumer preferences for healthier and more flavorful food options.
Project Overview
INTRODUCTION
Margarine, a butter substitute made originally from other animal fats, but nowadays exclusively from vegetable oils, like homogenization and pasteurization is a reach innovation. Margarine is made from water in oilemulsion because margarine is oilemulsion. Today it is a manufactured imitation of butter made by mixing a variety of fats that may include whale oil or vegetable oils, hydrogenated to an appropriates degree. Stabilize, an oil soluble dye and a proportion of soured skimmed milk to supply flavour.
Like its model, margarine is about 80% fat, 20% water and solids. It is flavoured, coloured ad fortified with vitamin A and sometimes D to match butters nutritional contribution. Single oil or a blend may be used. During World War 1, coconut oil was favoured, in the thirties, it was cottonseed, and in the fifties, soy. Today, soy and corn oils predominate. The raw oil is pressed from the seeds, purified, hydrogenated, them fortified and coloured, either with a synthetic carotene or with annatto, a pigment extracted from a tropical seed. The water phase is usually reconstituted or skim milk that is cultured with lactic bacteria to produce a stronger flavour although pure diacetyl, the compound most responsible for the flavour of butter, is also used. Emulsifiers such as lecithin help disperse the water phase evenly throughout the oil, salt and preservatives are also commonly added. The mixture of oil and water is them heated, blended, and cooled. The softer tub margarines are made with less hydrogenated, more liquid oils than other types of margarines.
In 1860s French Emperor Louis Napoleon III offered a prize to anyone who could make satisfactory substitutes for buffer, suitable for use by the armed forces and the lower classes.
French chemist Hippolyte Mege-Mouriezi invented a substance he called oleomargarine, which become, in shortened form, the trade name margarine and is now the generic term for a wide range of broadly similar edible oils. It is sometimes shortened to oleoleomargarine which was made by taking clarified beef fat, extracting the liquid portion under pressure, and then allowing it to solidify. When combined with butyrins and water, it made a cheap and more – or – less palatable butter substitute. Sold as margarine or under any of a host of other trade names, butter substitutes soon became big business but too late to help Mege-Mouriez. Although he expanded his initial manufacturing operation from France to the United States in 1873, he had little commercial success. By the end of the decade, however, artificial butters were on sale in both the old World and the new.
Margarine is naturally white or almost white; by forbidding the addition of artificial colouring agents, legislators found that they could keep margarine off kitchen tables. The bans became common place around the world and would endure for almost 100 years. It did not become legal to sell coloured margarine. In Australia, for example, until the 1960s.
In the mean time, margarine manufactures had made changes. Modern margarine can be made from any of a wide variety of animal or vegetable fats, and is often mixed with skim milk, salt and emulsifiers. Liquid fats are transformed into suitable substrates by the chemical process of hydrogenation, which renders them solid at room temperature. Many popular table spreads today are blends of margarine and butter. Something that was long illegal in the United States and Australia and no doubt parts of the world too and are designed to combine and the lower cost and easy – spreading of artificial butter with the taste of the real thing.
Three main types of margarine are common:
Hard, generally uncoloured margarine for cooking or baking, which contains a high proportion of animal fat. “Traditional†margarines for such use as spreading on toast, which contain a relatively high percentage of saturated fats and made from either animal or vegetable oils. Margarines high in mono – poly – unsaturated fats, which are made from safflower, sunflower soybean, cottonseed, or olive oil.
Margarine, particularly polyunsaturated margarine has become a major part of the Western dieted states, for example, in 1930 the average person ate over 8kg of butter a year and just over 1 kg of margarine By the and of the 20th century, an average American ate just under 2kg of butter and bearly 4kg of margarine.
Based on the fact that margarine can be obtained from vegetable fat and animal fat, this study to produce margarine from palm kernel melon $ coconut oils bland id to investigate if the product would be preferred over the sample in the market by the consumers. The odour and taste in the oils would be removed during processing for it not to affect the sample of margarine.
Physical, chemical and sensory evaluation test would be employed to investigate the quality. With the results we will defer mine the degree of acceptance of the proudly by the consumers.