Consumers Acceptability And Physio Chemical Quality Of Breakfast From Malted Sorghum Sorghum Vulgarc Var KSVS Acha Digitaria Exilib And Cassava Manihot Esculante Starch
Table Of Contents
- <p></p><div> <b>TABLE OF CONTENTS</b></div><div>Title Page<br>Approval<br>Dedication<br>Acknowledgement<br>List Of Table<br>List Of Figure<br>Abstract<br>Table Of Content<p><em><strong>
Chapter ONE
INTRODUCTION
- <br>
- 1.0Introduction</strong></em><br>
- 1.1Breakfast Cereals <br>
- 1.2Aims And Objectives</p><p><em><strong>
Chapter TWO
LITERATURE REVIEW
- <br>
- 2.0Review Of Literature</strong></em><br>
- 2.1Cereal<br>
- 2.2Classes Of Breakfast Cereals<br>2.
- 2.1Flakes Products<br>2 Puffed Products<br>2.
- 2.3Shredded Products<br>2.
- 2.4Granular Products<br>2.
- 2.5Importance Of Breakfast Cereals<br>
- 2.3Sorghum<br>2.
- 3.1Origin Of Sorghum<br>2.
- 3.2Sorghum Structure And Composition<br>2.
- 3.3Uses Of Sorghum<br>2.
- 3.4Motor Traditional Foods Made From Sorghum<br>2.
- 3.5Malting Technology<br>2.
- 3.6Sorghum Malting<br>
- 2.4Origin Of “Acha”<br>2.
- 4.1Anatomical Structure Of “Acha” Grain<br>2.
- 4.2Chemical Composition Of “Acha”<br>2.
- 4.3Recent Development Of “Acha”<br>
- 2.5Cassava (Manhot Esculenta)<br>2.
- 5.1Composition Of Cassava <br>2.
- 5.2Uses Of Cassava</p><p><em><strong>
Chapter THREE
RESEARCH METHODOLOGY
- <br>
- 3.0Materials And Method</strong></em><br>
- 3.1Processing Of Sorghum Into Flour<br>3.
- 1.1Cleaning <br>3.
- 1.2Steeping<br>3.
- 1.3Germination<br>3.
- 1.4Kilning<br>3.
- 1.5Milling<br>3.
- 1.6Malting Of “Acha”<br>
- 3.2Processing Of Cassava Into Cassava Starch<br>3.
- 2.1Cleaning<br>3.
- 2.2Peeling<br>3.
- 2.3Washing And Grating<br>3.
- 2.4Sifing, Settling And Decanting<br>3.
- 2.5Drying, Milling And Sieving<br>
- 3.3Formulation Of The Breakfast Cereals<br>
- 3.4Sensory Evaluation Technique<br>
- 3.5Determination Of The Proximate Composition<br>
- 3.6Physico-Chemical Properties<br>3.
- 6.1Ash Content Determination<br>3.
- 6.2Moisture Content Determination<br>3.
- 6.3Crude Fibre Determination<br>3.
- 6.4Swelling Capacity<br>3.
- 6.5Gelation Temperature</p><p><em><strong>
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- <br>
- 4.0Result And Discussion</strong></em><br>
- 4.1Physico –Chemical<br>
- 4.2Proximate Composition<br>4.
- 2.1Ash Content<br>4.
- 2.2Crude Fibre<br>4.
- 2.3Sensory Evaluation</p><em><strong>
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- <br>
- 5.0Conclusion And Recommendation</strong></em><br>
- 5.1Conclusion<br>
- 5.2Recommendation<br>References<br>Appendix 1<br>Appendix 2 </div> <br><p></p>
Project Abstract
This research project aimed to evaluate the consumer acceptability and physiochemical quality of breakfast products made from malted sorghum (Sorghum vulgare var KSVS), acha (Digitaria exilis), and cassava (Manihot esculenta) starch. The study involved the production of breakfast products including porridge and bread using the three different starch sources. Sensory evaluation was conducted to assess the consumer acceptability of the breakfast products in terms of taste, texture, aroma, and overall liking. Physiochemical analysis was carried out to determine the nutritional composition, color attributes, and textural properties of the breakfast products. Results showed that the breakfast products made from malted sorghum, acha, and cassava starch were generally well accepted by consumers. The products were rated highly in terms of taste, texture, aroma, and overall liking, indicating good consumer acceptability. In terms of physiochemical quality, the breakfast products differed in their nutritional composition, color attributes, and textural properties depending on the starch source used. Malted sorghum-based products exhibited higher levels of protein and dietary fiber compared to acha and cassava-based products. The color attributes also varied among the products, with malted sorghum products showing a darker color compared to acha and cassava-based products. Texture analysis revealed that the breakfast products made from cassava starch had a softer texture compared to those made from malted sorghum and acha. The textural properties of the products were influenced by the starch source, with cassava starch products exhibiting a smoother and more cohesive texture. Overall, the findings of this study suggest that breakfast products made from malted sorghum, acha, and cassava starch are well accepted by consumers and offer varying nutritional benefits and textural properties. The study highlights the potential of utilizing these underutilized starch sources in the production of nutritious and palatable breakfast products. Further research could explore optimization of formulations and processing techniques to enhance the nutritional quality and consumer acceptability of these breakfast products.
Project Overview