ABSTRACT
Mixtures
of full-fat soy flour and ighu and soy okara flour and ighu were produced in
the range of 25-75% soy product incorporation. Proximate, functional and
sensory properties of the mixtures were analysed, Addition of full-fat soy flour
and soy okara flour into ighu significantly (P<0. 05) increased the protein,
ash and ether extract of the flour mixtures. Water and Oil absorption capacities
and bulk density of the mixtures decreased with increasing level of soy flour
samples in the mixture. On the other hand, least gelation concentration, foam
capacity and stability increased as soy flours increased. Appearance and hand
feel of flour mixtures were significantly (P<0.05) affected by increase in
soy flours content. Although, there was significant change in general
acceptability of the flour mixtures, panelists appreciated the samples, which
contained 25-50% full-fat soy flour or soy okara flour most.
TABLE
OF CONTENTS
Title
Page
Certification
ii
Dedication
iii
Acknowledgement
iv
Table
Of Contents V-Vi
List
Of Tables vii
List
Of Figures Viii
List
Of Appendices ix
Abstract
X
Chapter
One
1.0
Introduction
1.1
Statement Of Problem
1.2
Justification
1.3
Objective
Chapter
Two
2.0
Literature Review 4
2.1
Cassava Nutritional Disorder 45
2.2
Cassava Products And Utilization 5
2.2.1
Ighu 6
2.2.2
Gari 6
2.2.3
Cassava Starch 7
2.2.4
Cassava Flour 7
2.2.5
Cassava Chip 7
2.3
Soy Flour And Its Composition 8
2.4
Soy Flour Utilization 9-1 1
Chapter
Three
3.0
Materials And Methods 12
3.1
Samples Preparation 12
3.1.1
Preparation Of Full-Fat Soy Flour 12
3.1.2
Preparation Of Soy Okara Flour 12
3.1.3
Preparation Of Ighu-Soy Flours Mixtures 14
3.2
Proximate Analysis 14
3.2.1
Moisture Content 14
3.2.2
Ash Content 14
3.2.3
Crude Protein 15
3.2.4
EtherExtract 15
3.2.5
Carbohydrate 15
3.2.6
Food Energy Value 15
3.3
Functional Properties 15
3.3.1
Water Absorption Capacity 15
3.3.2
Oil Absorption Capacity 16
3.3.3
Bulk Density 16
3.3.4
Gelation Property 16
3.3.5
Foam Capacity And Stability 16
3.4
Sensory Evaluation 16
3.5
Statistical Analysis 17
Chapter
Four
4.0
Results And Discussion 18
4.1
Proximate Analysis 18-19
4.2
Functional Properties 20-2 1
4.2.1
Water Absorption Capacity 2 1-22
4.2.2
Oil Absorption Capacity 22
4.2.3
Bulk Density 22
4.2.4
Least Gelation Concentration 22-23
4.2.5
Foam Capacity And Stability 23-24
4.3
Sensory Evaluation Of Flour Mixtures 24-25
Chapter
Five
Conclusion
And Recommendation 26
References
27-3 0
Appendices
31-34
OBAKOZUWA, O (2021). Physicochemical And Sensory Evaluation Of Mixture Of Ighu And Soy Flours. Repository.mouau.edu.ng: Retrieved Nov 25, 2024, from https://repository.mouau.edu.ng/work/view/physicochemical-and-sensory-evaluation-of-mixture-of-ighu-and-soy-flours-7-2
OSAKUE, OBAKOZUWA. "Physicochemical And Sensory Evaluation Of Mixture Of Ighu And Soy Flours" Repository.mouau.edu.ng. Repository.mouau.edu.ng, 26 May. 2021, https://repository.mouau.edu.ng/work/view/physicochemical-and-sensory-evaluation-of-mixture-of-ighu-and-soy-flours-7-2. Accessed 25 Nov. 2024.
OSAKUE, OBAKOZUWA. "Physicochemical And Sensory Evaluation Of Mixture Of Ighu And Soy Flours". Repository.mouau.edu.ng, Repository.mouau.edu.ng, 26 May. 2021. Web. 25 Nov. 2024. < https://repository.mouau.edu.ng/work/view/physicochemical-and-sensory-evaluation-of-mixture-of-ighu-and-soy-flours-7-2 >.
OSAKUE, OBAKOZUWA. "Physicochemical And Sensory Evaluation Of Mixture Of Ighu And Soy Flours" Repository.mouau.edu.ng (2021). Accessed 25 Nov. 2024. https://repository.mouau.edu.ng/work/view/physicochemical-and-sensory-evaluation-of-mixture-of-ighu-and-soy-flours-7-2