TABLE
OF CONTENT
Title
Certification
Dedication
Acknowledgement
Abstract
Table
of Content
CHAPTER ONE
1.0
Introduction
1.1 Nutrient value/Composition of Cashew
Nut
1.1.1 Overall composition of cashew
nut
1.1.2 Total Nutrient content of cashew
nut
1.1.3 Protein Content of Cashew Nut
1.1.4 Carbohydrate content of Cashew
Nut
1.1.5 Fatty Acid Content of Cashew Nut
1.1.6 Vitamin content of Cashew Nut
1.2 Uses of Cashew Nut
1.3 Potential of Cashew Cultivation
1.4 Cashew Nut Shell liquid composition
and properties.
CHAPTER TWO
2.0 Physio
Chemical Properties of Cashew Nut
2.1 Mineral
Content of Cashew Nut
2.1.1 Mineral
Composition of Cashew Nut
2.1.2 Analysis
of Mineral in Cashew Nut
2.2 Analysis
of Acid, Sponification and Iodine value in Cashew Nut.
2.3 Aim
of the Project
CHAPTER
THREE
3.0 Experimental
3.1 Material
and Apparatus
3.1.1 Reagents
3.1.2 Apparatus
and Equipment
3.2 Collection
of Sample
3.3 Preparation
of Sample
3.4 Preparation
of Reagent
3.4.1 Preparation
of Methanolic Pottassium Hydroxide
3.4.2 Preparation
of 1% phenophtaein
3.4.3 Preparation
of 0.1 sodium thiosulphate
3.4.4 Preparation
of Starch Indicator
3.4.5 Preparation
of 5% Potassium Iodide
3.4.6 Preparation
of 0.1m of NAOH (Sodium Hydroxide)
3.4.7 Preparation
of 0.5m Hcl (hydrochloric Acid)
3.5 Extraction
of CNoil
3.6 Physicochemical
Analysis
3.6.1 Physical
Properties Determination
3.6.1.1 Colour
3.6.1.2 Density
3.6.1.3 Specific
Gravity
3.6.2 Chemical
Properties Determination
3.6.2.1 Determination
of Saponification Value
3.6.2.2 Determination
of Iodine Value
3.6.2.3 Determination
of Acid Value
3.6.2.4 Determination
of Peroxide Value
CHAPTER
FOUR
4.0 Result
and Discussion
4.1 Result
4.2 Appendix
4.3 Discussion
4.4 Conclusion
4.5 Reference
ABSTRACT
Cashew
nut oil is basically extracted from the fruit of cashew by the cold pressed
method. The cashew nuts have a shell which has a hard layer inside and an oily
layer outside. The cashew nut is actively contained within this. The oil comes
out of the outer ashy colored shell. This oil is basically considered as toxic
for the human beings but still, it has various uses.
Four
methods were used in caring out the chemical properties of cashew nut. The
methods are Saponification value, Acid value, peroxide value, and Iodine value.
CHAPTER
ONE
INTRODUCTION
The
cashew nut (Anacadium Occidentale) produces nuts, the Kernels of which have
increase considerably in economic importance over the past few decades. Indigenous
to Brazil. The cashew was taken to West Africa, East and India by the
Portuguese in the 15th and 6th centuries. It was noticed that
the tree grew well on poor sandy soils along the costal belt and was used by
the Portuguese in Africa as an anti soil, erosion measure the tree prospered
and spread naturally, particularly in East Africa and India and the progeny of
these wild cashew has formed the basis of the raw material for the cashew
industry. Through the plant was primarily intended for checking soil erosion,
it is now mainly grown for its commercially important kernel and shell oil.
(Tiyadurai 1963).
Cashew
nut is a high value edible nut. It yield two oils one of these found between
the seed coat (or pericare) and the nut, is called the cashew nut shell liquid
(CNSC). It is used in industry as a raw material for brake lining compounds, as
a water proofing agent, a preservative and in the manufacturing of paints and
plastics. Iy is toxic and corrosive to the skin. (Cashew applies are sometimes
made locally in to fruit drinks, wines and pickles.
The
fat of nut is completely naturally and unprocessed which is best for the body.
It is especially rich in Linoleic acid (omega-3) and is least damaging to heart
and arteries. Infact, it constitutes about 47% of the total weight of the nut.
Nut often produce oil half their weight. It could be good news for people who
feel week debilitated. Cashew has the right combination of fat and the ratio
consumption. The relative abundance of monounsaturated fatty acids in cashew
nut is conducive to the promotion of good health and that the relative
abundance of fat is cashew nut in no way poses a nutritional risk (Achal 2005).
The advantages of cashew kernel is that it has a rich, delightful taste and it
meaty and acceptable as it.
NUTRITIVE
VALUE/COMPOSITION
Cashew
is a highly nutritious and concentrated form of food, providing a substantial
amount of energy. The cashew nut kernel has a pleasant taste and flavor and can
be eaten raw, fried and sometimes salted or sweetened with sugar (manay et al,
1987). It also contributes as an important source of invisible fat in the diet,
being widely used in a variety of ways there has been a growing demand for
cashew. The nut contains an acid compound which is a powerful vesicant, which
is abrasive to the skin. There has been a growing demand for cashew in many
temperate countries where the demand is increasing (Russel, 1979).
1.1.1 OVERALL COMPOSITION
The
kernel is considered to be of high nutritive quality and growing conditions or
the variety of cashew may have an influence on kernel composition (Ohler,
1979). The overall composition of the kernel is protein 21%, fat 46% and
carbohydrate 25%.
1.1.2 TOTAL
NUTRIENT CONTENT
The
total nutrient value of 100g of cashew nut is presented in table 1.
Moisture is 5.9
Total mineral = 2.4
Total fibre = 1.3
Energy = 785
Protein = 24
Carbohydrate = 41
Thiamin = 0.63
Niacin = 2.5
Vitamin K = 650
|
Total fate = 64
Saturated = 12.9
Unsaturated (linoleic) = 10.2
Ca = 53
P = 52.2
Fe = 5.3
Riboflarin = 0.19
Beta – Carotene = 60
Retinol Equivalent = 331u;10mcg
|
1.1.3 PROTEIN CONTENT
Wide
differences in the protein content ranging from 13.13 to 25.03% have been
reported from various region of India.
It has been suggested
that protein content be considered as one of the most important factors in
future breeding and selection programs on cashew nut. The Amino acid
composition of kernel protein has been reported by various experts. (Tabel 2)
Amino-Acid composition of cashew kernel protein.
Glutamic Acid = 28.0
Leucine = 11.93
Iso levcine = 3.86
Alanine = 3.18
Phenylalanire = 4.35
Tyrosine = 3.20
Glycine = 5.20
Histidine = 1.81
Lysine
= 3.32
|
Methionine = 1.30
Cystine = 1.02
Threonine = 2.78
Valine = 4.53
Tryptophane = 1.37
Aspartic Acid = 10.78
Proline = 3.72
Serine = 5.76
|
1.1.4 CARBOHYDRATE CONTENT
Analysis
of cashew nut kernels from different region of India have revealed that there
are variation in the reducing sugar content from 1% to 3% and the non-reducing
sugar from 2.4% to 8.7% starch content ranged from 4.6 % to 11.2% and the oil
content also showed a wide variability from 34.5% to 46.8%.
1.1.5 FATTY ACID COMPOSITION
The
fat and oil content of cashew nut contribute substantially to its energy
content and consist mostly of glycerides of Oleic acid (73.8%) and linoleic
acid (7.7%) (Ohler, 1979). Table 3 gives the composition of fats in cashew
kernels.
Table 3: Fatty and composition of Cashew
kernel (%)
Oleic Acid 73.3
Linoleic acid 7.67
Palmitic Acid 0.89
Steric Acid 11.24
Lignoseric Acid 0.15
Unsciponifiable matter 0.42
1.1.6 VITAMIN CONTENT
The vitamin content of
cashew nut kernel shown in table 4 indicates that 0.5 to 1.4mg per 100g of
thiamin and 0.58 mg per 100g of riboflavin, a good proportion of vitamin E and
traces of other vitamin are present in cashew.
Table 4–vitamin content (mg per 100gm)
of cash kernels
Thiamin 0.56
Niacin 3.68
Zocopherol 0.58
Pyridoxine traces
Axerophtol traces
Vitamin D traces
It may be mentioned that vitamin E
content of cashew nut could be a beneficial factor, in view of the wider use in
the diet of the elderly and those who run the risk of cardiorasovar disease.
Vitamin E is also a powerful anti-oxidant and its role in Lipid metabolism has
been well established. (KuruP, 1989)
1.1.7 MINIRAL CONTENT
The mineral content of
cashew kernel (Table 5) appear to be mineral as compared to the higher mineral
content of the cashew apple, especially the high vitamin C content (240mg),
most citrus species such as orange have only 45mg of vitamine C. however, the
cashew apple is yet to be requirement in the tropical countries where crop is
grown. The high price of cashew kernels wills certainly the planting program in
various countries. Since the cashew nut market competes with other nut, there
is both be increased production of all nuts (Russel, 1979).
Table 5: Mineral content of cashew
kernel (%)
Ca
= 0.04
P
= 0.88
Na
= 0.005
K
= 0.57
mg
= 0.28
fe
= 0.0008
|
Cu
= 0.002
Zn
= 0.004
Mn
= 0.02
|
1.2 USES
OF CASHEW NUT OIL
The
cashew Nut shell (CNS2), a byproduct of processing cashew, is mostly
composed of anacardic acid (Alexandra 2000) (70%) cardol (18%) and cardanol
(5%) (A.B, 2012). These acid have been used effectively against 100th
abscesses due to their lethality to a wide range of gram –position bacteria
many part of the plant are used by the patamona of Guyana medicinally. The bark
is scraped and soaked overnight or boiled as an antidiarrheal; it also yields a
gum used in varnish. Seeds are ground into powder used for antiveran for snake
bites; the nut oil is used topically as an antifungal and for healing cracked
heels.
Anacarde
acid is also used in the chemical industry for the production of cardanol,
which is used for resins, coating, and frictional material. (Alenxandre 2008)
cashew nut is a popular snack and it is rich flavor means that it is often
eaten roasted, on its own, lightly salted or tree nuts, containing starch to
about 10% of their weight. This makes them more effective than other nuts in
thickening water-based dishes such as soup, meat stews and some India milk
based deserts. Many South East Asia and South Asian cuisines use cashew for
this unusual characteristic, rather than other nuts. (Harold Mc Gee 2004).
The
shell of the cashew is toxic, which is why the cashew is shelled before it is
sold to consumers.
1.3 POTENTIAL OF CASHEW CULTIVATION
The
cashew tree (Anacardium Occidentale) was brought to India by Portuguese in 1653
AD from eastern Brazil. Then is spread across almost all parts of the country
and now it is among the top 3 commercial crops as per cashew statistic book
(2001). Cashew tree is evergreen and relatively easy to cultivate. It grows up
to 12 meters high and has a spread of 25 meters, most frequently found in coastal
areas.
Table 1: Cashew nut production worldwide
year 2000 – Jason. W Clay (2004)
Country
|
Area hectares
|
Cashew nut 103tons/year
|
India
|
837,000
|
537
|
Brazil
|
598,000
|
114
|
Nigeria
|
291,000
|
184
|
Indonesia
|
260,000
|
91
|
Guinea Bissau
|
210,000
|
73
|
Benin
|
175,000
|
26
|
Vietnam
|
151,000
|
27
|
Coted’ivore
|
125,000
|
78
|
Tanzania
|
90,000
|
121
|
World
|
2,742,000
|
1,600
|
Table 2: All India area, production and
yield of cashew nut (directorate of cashew nut and cocoa development, Cochin,
Kerala 2011 report).
Year
|
Cashew Cultivated area 1000
hectares
|
Production area 1000 hectares
|
Cashew Production 1000 tons
|
Cashew yield kg per hectare
|
2001-02
|
837,000
|
666
|
470
|
710
|
2002-03
|
598,000
|
675
|
550
|
760
|
2003-04
|
291,000
|
684
|
535
|
800
|
2004-05
|
260,000
|
700
|
544
|
810
|
2005-06
|
210,000
|
760
|
573
|
815
|
2006-07
|
175,000
|
765
|
620
|
820
|
2007-08
|
151,000
|
770
|
665
|
860
|
2008-09
|
125,000
|
835
|
695
|
773
|
1.4 CASHEW NUT SHELL COMPOSITION AND
PROPERTIES
The cashew nut shell is
about 0.3cm thick, hang a soft feathery outer skin and hard inner skin between
these skins is the honey comb structure contain CNSL ln side the shell is the
our kernel wrapped in at thin skin know as the testa CNS is a reddish brown
viscous liquid, having (4) major components: Anacardic acid, cardonl, methy1
cardol which are naturally occurring unstrurated phenols (NSL is traditionally
obtained as a byproduct during the process of removing the cashew kernel from
the nut. The process used are mainly hot oil and roasting in which the cash out
from the shell.
Natural (i.e cold,
solvent extracted) (NSL is a liquid that contain approximately 70% anacardic
acid, 18% cardol and 5% cardanol, with the remainder being made up of other
phenols and less polar substance (m 9 to 5, J.E.X etal, 2009). As can be seen
in figure 2, anacardic acid, cardanol and cardol consist of mixture of compound
having various degrees of instauration in the allyside chain.
Chemical structure of
Anacardic Acid, Cardanol and cardol.
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