ABSTRACT
Flour blends prepared from two
varieties of cocoyam (red cocoyam (Xanthosoma sagittfolium schoti) and white
cocoyam (Xanlhosoma sagitlijoiium (L.) Schott)), African breadfruit (Treculia
africana) and wheat (Trificum aestivium) at different proportions were extruded
into noodles in a locally fabricated and manually operated extruder. Proximate
compositions and functional properties of the composite flours were evaluated.
The sensory properties of the noodles produced were also determined using the
normal indomine instant noodle as a control sample. The flour blends had
proximate compositions ranging from 9.38% to 11.76% moisture, 1.25% to 3.24%
ash, 8.91% to 14.7 1% crude fibre, 2.33% to 3.54% crude protein, 1.07% to 4.93%
fat, and 65.44% to 72.83% carbohydrate. Emulsification capacity and stability
of the flour blends ranged from 10.86m11g to 18.70mL'g and 9.2lmllg to
17.6lmllg respectively. The composite flour had gelatinization capacity and
gelatinization temperature of 0.50g/ml — 0.99g1m1 and 77.50°C — 84.00°C
respectively. Foam capacity and foam stability of the flour blends were 9.75% -
13.65% and 5.63% - 8.72% respectively. Bulk density of the flour blends was
0.58g/ml — 0.60g/ml. The composite flour samples had water absorption capacity
of 1. 25m1/g — 2. 34m11g and oil absorption capacity of 1.l9ml/g — 2. l7ml/g.
The swelling index and wettability of the flour blends ranged from 1 .93m11g —
2.75m11g and 49.00s — 70.00s respectively. The results of the sensory evaluation
based on the nine-point hedonic scale, showed that the cooked noodle samples
had 4.73 — 6.67 colour, 5.27 - 6.60 flavour, 5.33 — 6.56 texture, 5.53 — 6.73
taste, 5.20 — 7.07 palatability, and 5.33 — 6.87 general (overall)
acceptability. Noodle sample 10 1(80% red cocoyam flour: 10% African bread
fruit flour: 10% wheat flour) was found to be the most acceptable to the
consumers.
NWAOGU, E (2021). Production Of Noodles From The Flour Blends Of Cocoyam (Xanthosoma Sagiftifolium), African Breadfruit (Treculia Africana), And W Ii Eat (Triticum Aestivium) . Repository.mouau.edu.ng: Retrieved Nov 25, 2024, from https://repository.mouau.edu.ng/work/view/production-of-noodles-from-the-flour-blends-of-cocoyam-xanthosoma-sagiftifolium-african-breadfruit-treculia-africana-and-w-ii-eat-triticum-aestivium-7-2
EMMANUEL, NWAOGU. "Production Of Noodles From The Flour Blends Of Cocoyam (Xanthosoma Sagiftifolium), African Breadfruit (Treculia Africana), And W Ii Eat (Triticum Aestivium) " Repository.mouau.edu.ng. Repository.mouau.edu.ng, 29 Jul. 2021, https://repository.mouau.edu.ng/work/view/production-of-noodles-from-the-flour-blends-of-cocoyam-xanthosoma-sagiftifolium-african-breadfruit-treculia-africana-and-w-ii-eat-triticum-aestivium-7-2. Accessed 25 Nov. 2024.
EMMANUEL, NWAOGU. "Production Of Noodles From The Flour Blends Of Cocoyam (Xanthosoma Sagiftifolium), African Breadfruit (Treculia Africana), And W Ii Eat (Triticum Aestivium) ". Repository.mouau.edu.ng, Repository.mouau.edu.ng, 29 Jul. 2021. Web. 25 Nov. 2024. < https://repository.mouau.edu.ng/work/view/production-of-noodles-from-the-flour-blends-of-cocoyam-xanthosoma-sagiftifolium-african-breadfruit-treculia-africana-and-w-ii-eat-triticum-aestivium-7-2 >.
EMMANUEL, NWAOGU. "Production Of Noodles From The Flour Blends Of Cocoyam (Xanthosoma Sagiftifolium), African Breadfruit (Treculia Africana), And W Ii Eat (Triticum Aestivium) " Repository.mouau.edu.ng (2021). Accessed 25 Nov. 2024. https://repository.mouau.edu.ng/work/view/production-of-noodles-from-the-flour-blends-of-cocoyam-xanthosoma-sagiftifolium-african-breadfruit-treculia-africana-and-w-ii-eat-triticum-aestivium-7-2