The bleaching of palm oil using activated charcoal
Table Of Contents
- Chapter one1.0 Introduction1.1 Preamble1.2 Objective1.3 Scope of study2.0 Literature Review2.
- 1.0 Chemical composition of palm oil2.
- 1.1 Carotenes2.
- 1.2 Phosphatides2.
- 1.3 Gums2.
- 1.4 Compositions and standards of palm oil2.
- 2.0 Spoilage factors of palm oil2.
- 2.1 Preventive measures2.
- 2.2 Inhibitors2.
- 3.0 Refining of creebe palm oil2.
- 3.1 Degumming2.
- 3.2 Neutralization2.
- 3.3 Bleaching2.
- 3.4 Deodorization2.
- 3.5 Chemical bleaching method2.
- 3.6 Accretion bleaching2.
- 3.7 Bleaching by adsorption2.
- 4.0 Adsorption2.
- 4.1 Uses of adsorption2.
- 5.2 Physical adsorption2.
- 5.2 Chemisorptions2.
- 6.0 Adsorbents2.
- 6.1 Bauxite2.
- 6.2 Decolourising carbons2.
- 6.3 Gas-adsorbent carbon2.
- 6.4 Molecular screening activated carbon2.
- 6.5 Synthetic polymeric adsorbents2.
- 6.6 Silica Gel2.
- 6.7 Alumna2.
- 6.8 Bone char.2.
- 7.0 Charcoal2.
- 7.1 Properties of charcoal2.
- 7.2 Activated charcoal2.
- 7.3 Methods of charcoal activation2.
- 7.4 Properties of activated charcoal2.
- 7.5 Chemical properties of activated charcoal2.
- 7.6 Physical properties of activated charcoal2.
- 7.7 Uses of activated charcoalCHAPTER THREE3.0 Experimental method3.
- 1.0 Materials3.
- 1.1 Material treatment3.
- 2.0 Charcoal activation using acid3.
- 2.1 Charcoal activation by heat treatment3.
- 3.0 Degumming of Palm oil3.
- 3.1 Neutralization3.
- 4.0 Bleaching of palm oil3.
- 4.1 Experimental set-up3.
- 5.0 Characterization of palm oil3.
- 5.1 Specific gravity3.
- 5.2 Iodine value3.
- 5.3 Free fatty acid3.
- 5.4 Saponification value3.
- 5.5 Esterification value3.
- 5.6 Process flow chartCHAPTER FOUR4.0 Experimental result4.
- 1.0 Effect of bleaching sample4.
- 2.0 Effect of temperature on bleaching4.
- 3.0 Colour observation at absorbance4.
- 4.0 Concise table for characterizationCHAPTER FIVE5.0 DiscussionCHAPTER SIX6.0 ConclusionCHAPTER SEVEN7.0 RecommendationReferencesTable of nomenclatureAppendices
Thesis Abstract
This project work is on the bleaching of palm oil using activated charcoal.
The charcoal used for this work was made from pieces of animal bone by carbonization method. It was then activated into two different samples. Firstly, the basic sample was activated using anaphoric acid (H2 s04) while the other was activated by just heating as a control for the experiment; both at a constant temperature of 5000c and approximate time of 2hours.
They were both size reduced into fines and sieved into particle 3ye of 150um portion of the crude palm oil was degummed and neutralized for bleaching. Each interval of bleaching with both the acid activated and the ordinary activated charcoal was 8mins and temperature of 1500c over a hot plate, and subsequent filtration of the solution.
A spectrophotometer was used to measure the absorbance of the oils (crude and bleached) at selected wave length of 480Um. This was converted as the degree of colour reduction expressed in percentages.
Results obtained showed that optimum quantity of the charcoal for bleaching is 5% by weight, of the oil, which gives a percentage colour reduction as 97. 14% for the acid activated and 93.57% for the calcinated sample.
Also, the characterization of both the original oil and the bleaching oil showed that the later has appreciable properties. Hence colour reduction was observable by naked eyes.
Thesis Overview
<p>
</p><p><strong>INTRODUCTION</strong></p><p><strong>1.1 </strong><strong>PREAMBLE</strong></p><p>Palm oil is one of the various types of vegetable oils, belonging to the group called liquids, because of its fatty acids content.</p><p>The majority of the fats contains some colouring matter either as a natural constituent or discoloration produced during the processing. Natural pigments present in vegetable oils are mainly the carotenoid, giving yellow and red colours, and the chlorophylls which give green colours. Colour deterioration can also take place during the extraction process, especially in the local method of extraction used in the most parts of the Eastern region in Nigeria.</p><p>Removal or reduction of colours and other components, otherwise called ‘Bleaching” is necessary not only because a pale-coloured fat has an appeal of ‘purity’ but also because the colours of the fat can influence the appearance of prepared food and even more importantly, the pigment present may affect the flavour and stability of the fats and food made from it.</p><p>The decolouration (bleaching) could be achieved by chemical treatment, heat treatment and adsorption methods. The most effective and widely used being the later. Thus, in this research project, bleaching by adsorption is carred out using an “Activated charcoal” (an adsorbent), a kind of active carbon, to substitute the use of local clays and the imported ‘Fuller’s Earth – in Palm Oil bleaching, which are rather expensive.</p><p>The charcoal can be produced from different sources as from, coal, wood, bone, coconut shell, etc. It would be verified the most suitable form and type of charcoal for effective bleaching and the most favourable condition at which the “activated charcoal could be used, which in them affects the bleach ability’ of the Palm oil itself.</p><p><strong>1.2 </strong><strong>OBJECTIVE</strong></p><p>The objective / aim of this research project is to verify the effectiveness of ‘Activated charcoal’ in the bleaching of palm oil. It will also expose the improvement in the use of local raw material (charcoal) in a chemical process (bleaching), in lien of the imported fuller’s Earth or other adsorbents which more expensive.</p><p>1.3 <strong>SCORE OF THE STUDY</strong></p><p>Basically, this, study dwells on the colours reduction of Palm oil, using an Activated charcoal as an adsorbent (bleaching agent). The major raw materials, Palm oil and charcoal were locally sourced, and information as regards the process were obtained form the literary and other resourceful materials (texts) that treats ‘Adsorption’ as a chemical process.</p>
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