This study evaluated some properties of steam-heated kunun zaki flour and beverage produced from millet and malts of cowpea or soybean. Malting increased the diastatic activities and protein content of cowpea and soybean. The diastatic... more
This study evaluated some properties of steam-heated kunun zaki flour and beverage produced from millet and malts of cowpea or soybean. Malting increased the diastatic activities and protein content of cowpea and soybean. The diastatic activity of the millet-cowpea malt (MC m) or soybean malt (MS m) increased as the solid-water ratio increased from 1:0 to 1:3. The instant blends produced from a 1:1 (w/v) slurry had crude protein contents of 203.4 (MC m) and 317.1 g kg -1 (MS m), sugar contents of 0.6444 (MC m) and 0.6378 g kg -1 (MS m), which were higher than millet's (M). The apparent viscosity of kunun zaki from MS m was 125 cP, MC m (121.3 cP) and millet (1605 cP). Sensory evaluation by an 80-member panel showed that kunun zaki from millet-soybean malt (MS m) was most preferred. The dry instant flour products can be stored and reconstituted on demand for consumption; the reduced viscosity of the blends would encourage increased nutrient densities.
Grains of cowpea and maize and slices of fresh cassava, cocoyam, plantain, and yam were steep-fermented in water, while flours from the same plant materials were fermented by backslopping for 24 to 30 hours. The pH and apparent viscosity... more
Grains of cowpea and maize and slices of fresh cassava, cocoyam, plantain, and yam were steep-fermented in water, while flours from the same plant materials were fermented by backslopping for 24 to 30 hours. The pH and apparent viscosity of the gruels from the resulting flours were determined. Loss in weight due to fermentation was higher in fresh tubers than in dry grains. The pH of the flours decreased during fermentation. Measurements showed that the apparent viscosity only of gruels from flours produced by backslopping decreased after 24 hours. The apparent viscosity of gruels from steep-fermented flours was higher than that of the unfermented flours and those produced by backslopping. The apparent viscosity reduction of gruels from steep-fermented flours using amylase-rich flour (ARF) from five-day white sorghum malt was better with the prepared gruels than when applied to the flour-in-tap-water suspension before it was used to prepare gruels. Viscosity reduction using ARF was ...
This study was undertaken to evaluate the effect of processing methods on the quality of abacha slices. Abacha slices were produced from cassava (TMS 97/4779) roots by four different methods. The abacha processing methods investigated... more
This study was undertaken to evaluate the effect of processing methods on the quality of abacha slices. Abacha slices were produced from cassava (TMS 97/4779) roots by four different methods. The abacha processing methods investigated were of different peeling, boiling, slicing and soaking methods. Also, raw cassava flour, which was peeled, sliced and dried (PSD) was produced. The sensory properties and yield of abacha, the chemical and physical properties of the flour from the dried abacha and raw cassava flour were determined. The sensory properties of the fresh abacha were evaluated which showed that boiled, peeled and sliced sample (BPS) was most preferred. The yield of the abacha ranged from 29.17-39.13%. Significant differences (p<0.05) were observed in the proximate composition of the samples. The processing methods significantly affected the swelling index and water absorption capacity of the abacha flour. PSD sample showed the highest value in swelling index and water ab...
Grains of cowpea and maize and slices of fresh cassava, cocoyam, plantain, and yam were steep-fermented in water, while flours from the same plant materials were fermented by backslopping for 24 to 30 hours. The pH and apparent viscosity... more
Grains of cowpea and maize and slices of fresh cassava, cocoyam, plantain, and yam were steep-fermented in water, while flours from the same plant materials were fermented by backslopping for 24 to 30 hours. The pH and apparent viscosity of the gruels from the resulting flours were determined. Loss in weight due to fermentation was higher in fresh tubers than in dry grains. The pH of the flours decreased during fermentation. Measurements showed that the apparent viscosity only of gruels from flours produced by backslopping decreased after 24 hours. The apparent viscosity of gruels from steep-fermented flours was higher than that of the unfermented flours and those produced by backslopping. The apparent viscosity reduction of gruels from steep-fermented flours using amylase-rich flour (ARF) from five-day white sorghum malt was better with the prepared gruels than when applied to the flour-in-tap-water suspension before it was used to prepare gruels. Viscosity reduction using ARF was ...
