ABSTRACT
Chin-chin
snacks were produced from composite flours of wheat, cocoyam and pigeon pea
with the following formulation; sample WCPO (100% wheat), WCP1 (80% wheat, 10%
cocoyam, 10% pigeon pea flour), WCP2 (80% wheat, 20% pigeon pea flour), WCP3
(80% wheat, 20% cocoyam), WCP4 (50% wheat, 50% pigeon pea) and WCP5 (50% wheat,
50% cocoyam). Chin-chin made from 100% wheat flour served as the control. The
samples were analyzed for chemical, mineral, functional properties and sensory
analysis . They were evaluated using standard analytical procedures methods.
Data generated were statistically analysed by one way analysis of variance
using statistical product ofservice solution version 23.0. The proximate result
showed that their moisture ranged from 7.62-7.75%, protein 8.39-14.70%, fat
3.82 - 4.37%, ash 4.50- 4.79%, fibre 2.33 - 4.77%, and carbohydrate
64.03-77.23%. The mineral content ranged from 45.97-50.77mg/100g, 11.99-14.68mg/l
00g, 116.73-159.50mg/100g, 16.13- 22.49mg/100g, 156.77-182.37mg/l 00g for
calcium, magnesium, potassium, sodium and phosphorus respectively. The
functional properties ranged from 0.66-0.69ml,1.53-1.87g/g, 1.17-1.60g/g,
50.85-63.17%, 24.83-32.57% for bulk density, water absorption, oil absorption
capacity, emulsion capacity and foam capacity respectively. For vitamin
112.00-119.43mg/100g, 0.03-0.08mg/100g, 0.03-0.06mg/100g, 0.029-0.4 lmg/100g,
2.81-3.35mg/100g for vitamin A, Bl, B2, B3 and C respectively. The
anti-nutritional properties result ranged from 0.12-0.14mg/100g,
0.10-0.32mg/100g and 0.00- 0.09mg/100g for phytate, oxalate and trpsin
inhibitor respectively. The sensory properties result ranged from
4.14-7.01,3.86-7.70, 3.30-7.63, 4.02-7.76, 4.15-7.86 for Appearance, taste,
crispness, aroma and general acceptability. The sensory evaluation showed
preference for WCPO (100% wheat flour) also, WCP3 (80% wheat, 20% cocoyarn
flour), WCP4 (50% wheat, 50% pigeon flour) and WCP5 (50% wheat, 50% cocoyam
flour) for the composite chin-chin samples. Production of chin-chin from blends
of wheat, cocoyam and pigeon pea flours improved the nutrient composition and
sensory properties with acceptable/safe anti-nutrient limit which can be
optimized for value addition.
ETENG, E (2024). Evaluation Of Nutrient And Sensory Properties Of Chin-Chin Produced From Flour Blends Of Wheat, Cocoyam, And Pigeon Pea:- Eteng, Runyi E. Repository.mouau.edu.ng: Retrieved Nov 22, 2024, from https://repository.mouau.edu.ng/work/view/evaluation-of-nutrient-and-sensory-properties-of-chin-chin-produced-from-flour-blends-of-wheat-cocoyam-and-pigeon-pea-eteng-runyi-e-7-2
ETENG, ETENG. "Evaluation Of Nutrient And Sensory Properties Of Chin-Chin Produced From Flour Blends Of Wheat, Cocoyam, And Pigeon Pea:- Eteng, Runyi E" Repository.mouau.edu.ng. Repository.mouau.edu.ng, 23 Sep. 2024, https://repository.mouau.edu.ng/work/view/evaluation-of-nutrient-and-sensory-properties-of-chin-chin-produced-from-flour-blends-of-wheat-cocoyam-and-pigeon-pea-eteng-runyi-e-7-2. Accessed 22 Nov. 2024.
ETENG, ETENG. "Evaluation Of Nutrient And Sensory Properties Of Chin-Chin Produced From Flour Blends Of Wheat, Cocoyam, And Pigeon Pea:- Eteng, Runyi E". Repository.mouau.edu.ng, Repository.mouau.edu.ng, 23 Sep. 2024. Web. 22 Nov. 2024. < https://repository.mouau.edu.ng/work/view/evaluation-of-nutrient-and-sensory-properties-of-chin-chin-produced-from-flour-blends-of-wheat-cocoyam-and-pigeon-pea-eteng-runyi-e-7-2 >.
ETENG, ETENG. "Evaluation Of Nutrient And Sensory Properties Of Chin-Chin Produced From Flour Blends Of Wheat, Cocoyam, And Pigeon Pea:- Eteng, Runyi E" Repository.mouau.edu.ng (2024). Accessed 22 Nov. 2024. https://repository.mouau.edu.ng/work/view/evaluation-of-nutrient-and-sensory-properties-of-chin-chin-produced-from-flour-blends-of-wheat-cocoyam-and-pigeon-pea-eteng-runyi-e-7-2