PROCESS FOR REFINING VEGETABLE OIL AND ITS FOOD VALUE
Table Of Contents
- Cover page Title page Certification Dedication Acknowledgement Abstract Organization of the work Table of Contents
Chapter ONE
INTRODUCTION
Chapter TWO
LITERATURE REVIEW
- 2.1The Oil Palm
- 2.2Extraction and Refining of Vegetable Oil
- 2.3Types and Sources of Vegetable Oil
- 2.4Physical Properties and Chemical Reactions of Vegetable Oil
- 2.5Role of Vegetable Oil in the Diet
- 2.6Utilization and Production of Vegetable Oil
- 2.7Factors Influence Quality of Oil
- 2.8Preservation Method of Vegetable Oil
- 2.9Problems Facing Vegetable Oil Industry
- 2.10Cholesterol
- 2.11Food Sources of Cholesterol
- 2.12Effects of Cholesterol, Other Lipids and Lipoproteins to the Heart
- 2.13Reduction of Cholesterol in the Body
Chapter THREE
RESEARCH METHODOLOGY
- and Recommendation References
Project Abstract
The process of refining vegetable oil is crucial to ensure its quality, safety, and nutritional value. This research project aims to investigate and optimize the refining process of vegetable oil to enhance its food value. The study will focus on various refining methods such as degumming, neutralization, bleaching, and deodorization to eliminate impurities and enhance the oil's stability. Additionally, the impact of refining on the nutritional composition of vegetable oil will be evaluated, with a specific focus on fatty acid profile, antioxidants, and micronutrients. The research will utilize analytical techniques such as gas chromatography, spectrophotometry, and mass spectrometry to assess the changes in the chemical composition of the oil before and after refining. Furthermore, sensory evaluation will be conducted to determine the effect of refining on the oil's flavor, odor, and overall acceptability. The study will also investigate the shelf life of the refined oil under different storage conditions to ensure its long-term quality and safety. The findings of this research project are expected to provide valuable insights into the optimization of the vegetable oil refining process to enhance its food value. By understanding the effects of refining on the nutritional composition, stability, and sensory attributes of vegetable oil, food manufacturers and consumers can make informed decisions regarding the selection and utilization of refined oils in various food applications. This research is significant as it contributes to the overall improvement of the quality and safety of vegetable oil products in the food industry. In conclusion, the refining process plays a crucial role in ensuring the quality and safety of vegetable oil, ultimately enhancing its food value. By optimizing the refining process through advanced analytical techniques and sensory evaluation, this research aims to improve the overall quality, nutritional composition, and shelf life of refined vegetable oil. The findings of this study will have implications for the food industry, guiding the production of healthier and more stable vegetable oil products for consumers.
Project Overview
CHAPTER ONE
INTRODUCTION
Palm oil is one the commercial product of palm fruit (Elaesis Guineesis).
It is derived from the fleshy messieurs of the fruit of the oil palm
which contains 45 – 55% oil. Palm oil belongs to a class of food known
as fat and oil, which are generally termed lipid. It is oil from plant
origin.
However, oil palm exists in a world semi and cultivated state in three kinds of the equatorial tropics:
- In Africa
- South-east Africa
- And in America
It is indigenous to West Africa and grows wild in most parts of Southern Nigeria.
The oil palm gives the highest yield of oil per unit area of any crop,
and produces two distinct oil. The outer fibrous layer provide palm oil,
the inner hard unit contains palm kernel oil, both which are important
in world trade.
Though both
palm oil and palm kernel are derived from the pulp during processing.
The international trade in palm oil began in the beginning of the
nineteenth century, while pal, kernels trade develop after 1850.
Naturally, the oil palm must be harvested before processing can take
place. This is usually occurs when t he fruit bunches changes colour
from black to orange and fruiting body becomes detached from the stalk (Piggott, 1990; p. 109).
Once the produce is harvested, it is taken to the mill for the palm
oil to be extracted. This process is carried out in four stages:
- Sterilization
- Stripping of fruitless from bunches
- Digestion
- Oil extraction
Moreover, crude vegetable oil are extracted form the seeds/nuts.
Presently,
it is done primarily by solvents extraction whereas in the past, it was
done by physical means such as the application of heavy pressure to the
seed/nut.
However, palm oil constitutes the most important source of edible oils
and fats. The oil is semi-solid at room temperature due to the presence
of natural saturat4ed fats. It severs as rich source of dietary energy
yielding approximately a calorie. Palm oil contains fatty acid
components which are essential nutrients (FAO, 1966: p, 119 - 121) and
their functional and textural characteristics contribute to the favour
and palatability of many natural and prepared foods. It is easily
digested, absorbed and to utilized in normal metabolic processes. The
oil is cholesterol free and is rich in carotenoids.
Naturally, palm oil contains a high level of tocols (vitamin E) which
are poverty natural anti-oxidants. It contains a very 100 concentration
of linolenic acid and a moderate proportion of linolenic acid, the most
readily oxidized component of oils. Natural palm oil is known for its
excellent stability at high temperatures. The low content of
polyunsaturated fatty acids, which centers resistance to rancidity.
In addition, vitamins are accessory food factors, which cannot be
synthesized in the human body, and have to be supplied in the diet,
albeit in small quantities.
The fat – soluble vitamins namely:
- Vitamin A
- Vitamin D
- Vitamin E
- Vitamin K
Are
contained in fat and oils. Vitamin A carotene from natural palm oil is
nature’s most abundant source. In nature, there are approximately six
hundred known carotenoids, rangity from yellow orange to red, lives and
some of these pipmeirts possess vitamin A activity of varying degrees.
Red palm
oil is one of the richest natural plant sources of carotenoids with
concentration of 500 – 750 ppm. No other vegetable oil contains
carotenoids in significant quantities.
Vitamin E
is one of the most important phytonutrients in edible oils/. It consists
of eight naturally occurring isomers a family of four tocopherots
(alpha, beta, gamma and delta), and four tocotrinots (alpha, beta,
----mma and delta) homologues.
Tocotrinols
are naturally present in most plants; however, they are dound most
abundantly in palm oil extracted from palm fruits vitamin E anti –
oxidant play protective role in cellular aging, atheroseclerosis and
cancer.
Vitamin D on the other hand, is a sterol and is essential for borne formation.
Nevertheless, the vegetable oil obtained from t h e same fruits as palm
oil is very different products because of its lauric and content. It
has a similar composition and behaviours of those of acid content of
this oil make it a desirable ingredient in the manufacture of margarines
confectionery and based goods.
This acid
also gives the oil some special quantities which makes it desirable in
soap manufacturing. It acts as processing acids in the rubber industry
due to its softening and plastering effects.
Oils and fat are liable to spoilage which results in the production of
unpleasant odours and flavours. This is used in described as rancidity.
Different types of oil and fats show varying degree of resistance to
spoilage, thus most vegetable oils deteriorate only slowly, whereas
animal fat deteriorate rapidly and marine oil. This is because animal
fat contain a relatively high proportion of combined high unsaturated
fatty acids. The two most common forms of rancidity are hydrolytic.
Generally, palm tree is highly valuable plant in the sense that non of
its component is a waste. The palm founds could be used for there
feeding of domestic animals as improvised roofs for local houses. The
stem could on its own serve as alternative to plant in the conventional
roof for modern building. The fruits/kernel provide goods source of
vegetable oil.
All crude oils and fats when fresh produced contain unwanted impurities.
These unwanted impurities consist of:-
- Free fatty acids
- Moisture
- Gums
- Trace metals
- Odourferious materials
- Colouring matter
- Resins
- And
sometime vitamins. These impurities affect flavour, odour, and clarity
and are removed during returning. Process is carried out in a number of
stages which may be considered in turn:-
- Degummiry
- De odourizing
- Reaction with alkali
- Bleaching
After
undergoing these process, the oil is pure and ready for use as is
usually the case, ready for blending. It is desirable t hat the oil
should not come into contact with air one it has been refined as this
leads to deterioration due to oxidation. The implication of these
factors listed above and even more would be highly lighted in the course
of this work with a view – pointing the best over all processing
method.
Finally, cholesterol a steroid lipid is found in the cell membranes of
all body tissues. It is carried around the blood stream of all animals.
Cholesterol are classified into two forms:-
- Good cholesterol
- Bad cholesterol
Most
cholesterol is not dietary in origin, rather it is synthesized
internally. They are present in higher concentrations in tissue which
either produce more or have more densely packed membranes, examples:-
- The liver
- Spinal cord
- And atheroma
Moreso, they play a central role in many biochemical processes. The body uses it in a number of ways namely:-
- In the production of bile
- In the production of acids
- Helps I n the digestion of fat in the body
- It is important to health.
However,
too much cholesterol in the body can lead to narrowing and blockage of
the arteries especially those that feed the heart and can keep it
healthy.