PRODUCTION AND ACCEPTABILITY STUDIES OF MALTED SORGHUM (SORGHUM BICOLOR) BISCUIT
Table Of Contents
- Cover page Title page Certification Dedication Acknowledgement Abstract Organization of the work Table of Contents
Chapter ONE
INTRODUCTION
- 1.0Introduction
- 1.1Objectives of the study
Chapter TWO
LITERATURE REVIEW
- 2.0Literature Review
- 2.1Origin of Sorghum
- 2.2Sorghum Utilization 2.
- 2.1Production of Malted Sorghum Flour 2.
- 2.2Malted of Sorghum 2.
- 2.3Steeping 2.
- 2.4Germination 2.
- 2.5Kilning
- 2.3Method of Processing Wheat into Flour for Biscuit Making 2.
- 3.1Wheat Flour Production 2.
- 3.2Effects of Processing of Nutritional Value of wheat Flour 2.
- 3.3Functional Processing of Nutritional Value of Wheat Flour 2.
- 4.0Ginger 2.
- 4.1The History of Ginger 2.
- 4.2Ginger Cultivation 2.
- 4.3Spices and Other Oils 2.
- 4.4Ginger Processing 2.
- 4.5Uses of Ginger 2.
- 4.6Nutritional Composition 2.
- 5.0Biscuit 2.
- 5.1Definition of Biscuit 2.
- 5.2Classification of Biscuits 2.
- 5.3Hard Dough Biscuits 2.
- 5.4Lean Hard Dough Biscuits 2.
- 5.5Medium Hard Dough Biscuits 2.
- 5.6Puff Hard Biscuits 2.
- 5.7Lean Batter Biscuits 2.
- 5.8Highly Enriched Biscuits 2.
- 5.9Proximate Composition of Biscuits
Chapter THREE
RESEARCH METHODOLOGY
- 1.0Materials and Method
- 3.1Sources of Raw Materials
- 3.2Raw Materials for Baking
- 3.3Equipment
- 3.4Chemicals
- 3.5Method for Processing Malted Sorghum
- 3.6Biscuit Production 3.
- 6.1Proximate Analysis of the Prepared Biscuits 3.
- 6.2Protein Determination 3.
- 6.3Fat Determination 3.
- 6.4Moisture Determination 3.
- 6.5Total Ash Determination 3.
- 6.6Carbohydrate Determination 3.
- 6.7Sensory Evaluation of Prepared Samples
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 2.0Results and Discussions
- 4.1Proximate Composition of the Test Biscuits
- 4.2Sensory Evaluation
- 4.3Discussion
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- and Recommendation References Appendix
Project Abstract
Biscuit was produced from malted sorghum (Sorghum bicolor) and wheat flour blend. Sorghum grains were sorted, steeped in water, germinated and kilned. Four samples of biscuit were produced using sorghum and wheat in the following ratios samples A; 30 70, sample B; 5050, sample C; 6040, sample D; 1000. Creaming method was used in biscuit production with specified ingredients. Proximate analysis of the product (biscuit) was determinate viz. moisture content for sample A; 2.5%, B; 3% C; 3.5%, D; 2%, fat content for the sample A; 15%, B; 16%, C; 17%, D, 15.5%, Protein content for A; 8.52%, B; 8.7%, C; 8.79%, D; 8.35%, Ash content for sample A; 0.5%, B; 1.0%, C; 1.5%, D; 0.5% and Carbohydrate content for A; 73.48%, B; 71.24%, C; 69.21%, D; 73.65% respectively. the sensory evaluation of the samples were carried out using hedonic scale. from the result, there was no significant difference at 5% level and 1% level between the four samples in terms of colour crispiness, flavour, and overall acceptance, but when compared with 100% wheat, there was a slight difference in texture of biscuits with “sorghum and wheatâ€, but from the score mean, sample B gave the best result
Project Overview
INTRODUCTION
Biscuit may
be defined as a thin flat baked product made from flour, salt,
sweetening agent fat and preservatives. They are crisps, unleavened and
sometimes sweet pastry produced light by the addition – F baking powder
or soda, sometimes with chocolate or fruit in put (Achukoh; 1992).
Biscuit can also be defined as a baked product having not less than 8%
of flour content calculated (Hannemah, 1981). Okaka, 1997 stated that
biscuits are termed “cookies†in USA but the Word biscuit means a small
cake like bun.
According to Terrell, 1981 there are basically some ingredients that
are used for biscuit production such as sugar, salt, milk, shortening
flavour leavening. Egg improves the volume of biscuit as well as the
taste and flavour. Egg and butter are also used for variety, these
improves the quality of the products.
Wheat flour
is a critical and principal raw material in biscuit production its.
Superiority over other cereals is due to the presence of gluten which
inherently imparts all the essential qualities to their products. The
absence of this simple protein in non-wheat flour makes them unsuitable
as substitutes for wheat flour. Unfortunately, wheat is a temperature
crop, there fore, our tropical climate does not favour its cultivation.
Flour which has high gluten content are classified as a strong hard
flour, and therefore produces a strong dough and thus a strong biscuit
is produced (Richtea), while flour with small gluten content produces a
soft I weak biscuit (Digestive) Aerating chemicals, syrups and water
were further added as one of the basis ingredients for biscuit making
(Achukoh; 1992). The production of biscuits involves weighing, mixing,
dough formation, kneading and rolling out, machining and shaping,
prickling Bakino, cooling and packaging (Okaka, 1997).
The malting
potentials of sorghum grains can be utilized to produce soft dough
biscuit. Germinated sorghum grains, develop alpha – amylase, carboxy
peptidase, endo – beta – 1, 3 – glucanase, pentosanase, limit dextrinase
and endo – protease in the grain during malting. Malting involves
essentially steeping, germination and limiting cereals, seedling growth
by kilning. During germination enzymes are produced for the degradation
of starch and protein in the cereal grain. Malting yields higher
proportions of hydrolytic enzymes such as X and B – amylases which may
be either completely soluble or largely insoluble depending on the
variety.
Malted
sorghum and wheat flour are used in order to check the baking potential
of biscuit, malts produce from sweet sorghum and related variety usually
contain insoluble amylase. The insoluble substances that make aqueous
extraction impossible (Amori, 1 9 8 7) – Glucosidase in sorghum malt is
also highly insoluble malt solid (Barry, and Dorota 1988).
Malting
causes a decrease in the density of caryposis in sorghum grain (Isola,
1992). Lower the amount of lysine from 0.25% in unmalted sorghum to
0.18% in sorghum malt (Ilori, 1989) and reduces the milling energy
(Swanstoo et al, 1994).
Time and
temperature of storage influence the percentage soluble amylase in
sorghum grain. For example, sorghum grain stored at 12t 23oc
temperature for 2 to 3 years give higher levels of soluble amylase
(between 57 – 73%) while nearly harvested grain give about 25%. Lowering
the temperature to 7oc reduces the level of soluble amylase
in the level of soluble amylase in the grains to about 37% after 3 years
(Novellie et al, 1973).
AIMS AND OBJECTIVES OF THE STUDY
To evaluate
the acceptability of the biscuit made from malted sorghum and wheat
flour blend and to reduce cost of production manufacturers, so as to
break even and make gain.
Malted
sorghum flour has blended with wheat flour in the preparation of some
confectioneries will go a long way in reducing he country’s heavy
reliance on imported wheat and conserve the Nation Foreign Exchange.