scholarly journals Evaluation of Various Properties of Amaranthus (Genus Amaranthus L.) Based Composite Flour Blends for Preparation of Gluten-Free Biscuits

2021 ◽  
Vol 13 (1) ◽  
pp. 57-68
Author(s):  
Muluken K. Kassa ◽  
Shimelis A. Emire
Keyword(s):  
Proximate Composition ◽  
Free Food ◽  
Quality Attributes ◽  
Pasting Properties ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Gluten Free ◽  
Mineral Concentration ◽  
Composite Flours ◽  
Flour Blends

This research was conducted to investigate the pasting, rheological and functional properties, and gluten-free biscuit making potential of a composite flour prepared from grains of amaranthus, sorghum and finger millet. The formulation for the composite flour was obtained from D-optimal mixture design ratio using Design-Expert. The rheological and pasting properties of the composite flours were determined, while the proximate composition, physical dimensions, mineral concentration and sensory quality attributes of the biscuits were assessed. The results showed that there were significant (p<0.05) differences in the pasting profile of the control and amaranthus based composites flour except for pasting temperature. Water absorption capacity and water soliblity index increased as the blending ratio of amaranthus flour increased, while oil absorption capacity decreased. The proximate composition evaluation 13.75, 2.04, 1.77 and 31.75% were found to be the highest values of the biscuit samples in terms of protein, crude fiber, ash and crude fat, respectively. Mineral analaysis was carried out and there was a significant (p<0.05) difference in Fe, Ca, Zn and P content among the biscuit samples made from the composite flour blends. Similarly, the sensory evaluation indicated that there was a significant (p<0.05) differences in apperance, colour, texture, flavour and overall acceptability among the composite biscuit samples. However, the difference was insignificant (p<0.05) in crispiness of biscuit samples. In a nut shell this research revealed that a nutritionally dense gluten-free biscuits can be formulated without affecting the quality attributes of the biscuit. Thus, the composite flours can be used for the preparation of gluten free food products in africa, where the crops have not been effectively utilized in food processing industries.

scholarly journals QUALITY ATTRIBUTES OF PANCAKES FROM PEELED AND UNPEELED SWEETPOTATO FLOURS WITH CASSAVA STARCH

2020 ◽  
Vol 18 (1) ◽  
pp. 88-102
Author(s):  
A. T. OMIDIRAN ◽  
O. A. ADERIBIGBE ◽  
O. P. SOBUKOLA ◽  
O. O. AKINBULE
Keyword(s):  
Functional Properties ◽  
Proximate Composition ◽  
Control Sample ◽  
Quality Attributes ◽  
Cassava Starch ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Crude Fibre ◽  
Overall Acceptability ◽  
Flour Blends

This study evaluated some quality attributes of pancakes from peeled and unpeeled sweetpotato flours and cassava starch. Cassava starch was substituted up to 30% of the total composite flour. The proximate composition, colour, carotenoid and functional properties of the different flour blends were determined. The flour blends were processed into pancakes and the proximate composition and sensory acceptability of the pancakes were determined. Data obtained were subjected to analysis of variance. The result showed that they were significant differences (p<0.05) in the functional properties of the flour blends. Bulk density, Water absorption capacity, Oil absorption capacity, swelling capacity ranged from 0.70 to 0.78 g/ml, 1.87 to 2.30 g/ml, 1.02 to 1.40 g/ml and 5.18% to 6.66%  respectively. There were significant differences (p<0.05) in the proximate composition of the pancake samples. The values ranged from 42.76 to 45.53%, 2.13 to 3.98%, 9.06 to 10.34%, 5.01 to 7.18%, 3.75 to 6.01% and 29.19 to 35.33% for moisture, ash, fat, protein, crude fibre and carbohydrate contents, respectively. Pancake produced from 100:0 peeled and unpeeled sweetpotato flour had the highest score for overall acceptability which can compare favorably, with pancakes from wheat flour which is the control sample. In conclusion, sweetpotato flour blended with cassava starch at different ratio gave good proximate and functional properties which resulted in pancakes of good quality attributes.    

Proximate composition, pasting and functional properties of composite flour blends from cassava and chia seeds flour

2021 ◽  
pp. 108201322110694
Author(s):  
Ashura Katunzi-Kilewela ◽  
Leonard MP Rweyemamu ◽  
Lilian D Kaale ◽  
Oscar Kibazohi ◽  
Roman M Fortunatus
Keyword(s):  
Functional Properties ◽  
Proximate Composition ◽  
Pasting Properties ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Peak Time ◽  
Swelling Capacity ◽  
Pasting Temperature ◽  
Gelation Concentration ◽  
Flour Blends

The study established the proximate composition, pasting, and functional properties of cassava flour (CF) blended with chia seeds flour (CSF). Composite flour was prepared by blending CF with CSF in the ratios of 95:05, 90:10, 85:15, 80:20, and 75:25 with CF and CSF used as controls, respectively. The effect of blending significantly (p < 0.05) increased protein, fat, fibre, and ash contents as CSF increased. On other hand, moisture and carbohydrate contents decreased significantly. Pasting properties of composite flour blends decreased significantly (p < 0.05) as the incorporation of CSF increased and a noticeable change was observed for composite flour (75:25) except for peak time and pasting temperature. Functional properties of water absorption capacity (WAC) of CSF were significantly different with CF and composite flour blends. Oil absorption capacity (OAC) of CF and CSF were significantly different, while the composite flour blends had varied OAC due to the inclusion of the different amounts of CSF. The swelling capacity (SC) of CF and CSF were not significantly different, but composite flour blends were significantly different from both CSF and CF. The least gelation concentration (LGC) and bulk density (BD) increased significantly as chia seeds increased. Increased concentration of chia CSF in the composite flour blends showed to alter the functional properties. This study recommends composite flour 75:25 for processing semiliquid products like porridge due to reduced pasting properties values that may be associated with increased energy density compared to CF.

scholarly journals Pasting Properties of Composite Flour Made from Sorghum, Millet and African Yam Bean

2021 ◽  
pp. 23-35
Author(s):  
J. N. Okafor ◽  
J. N. Ishiwu ◽  
J. E. Obiegbuna
Keyword(s):  
Water Absorption ◽  
Bulk Density ◽  
Pasting Properties ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Water Absorption Capacity ◽  
African Yam Bean ◽  
Composite Flours ◽  
Gelation Concentration ◽  
Flour Blends

The aim of this research was to produce acceptable ‘fufu’ from a mixture of sorghum, millet, and African yam bean flours that will have a moderate carbohydrate and protein content with most optimized texture. The functional and sensory properties of flour blends produced from Sorghum, Millet and African yam bean was studied. Sorghum, Millet and African yam bean were processed into flour and mixed at different ratios to obtain composite flours. The flour formulations obtained were analyzed for water absorption capacity, bulk density, least gelation concentration , and viscosity .The  water absorption capacity ranged from 1.00 to 3.00,  the bulk density ranged from 0.56 to 0.82;the least gelation concentration ranged from 5.77 to 6.87,while the viscosity ranged from 0.956 to 9.30.Also proximate composition of the individual flours before formulation  was analyzed, it ranged from 6.13 to 8.46 moisture, 2.00 to 4.67 ash, 0.17 to 8.00 fiber,5.47 to 8.61 fat, 7.57 to 21.84 protein, 58.34 to 69.27 carbohydrate.The sensory values ranged from 5.60 to 6.45 for taste; 4.25 to 6.85  for colour; 5.15 to 6.80 for texture; 3.85 to 5.70 for aroma; 5.45 to 6.45 acceptability. Sample 10 (with the ratio of 40:70:20) had the highest rating for general acceptability. It was observed that sample 1(with the ratio of 60:50:60) had the lowest rating in taste and aroma. The mixture components that could produce optimum texture was determined through optimization plot. This work has demonstrated that acceptable ‘fufu’ with moderate protein and carbohydrate could be successfully produced using composite flours of sorghum, millet and African yam bean.

scholarly journals Effects of Fermented Maize Residue Addition on the Physico-chemical and Sensory Properties of Chin-Chin

2021 ◽  
pp. 65-73
Author(s):  
Owuno Friday ◽  
Achinewu Simeon Chituru
Keyword(s):  
Proximate Composition ◽  
Protein Digestibility ◽  
Pasting Properties ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Crude Fibre ◽  
Overall Acceptability ◽  
Physico Chemical ◽  
Significant Difference ◽  
Pasting Temperature

Chin-Chin, a traditional Nigerian snack was prepared utilizing wheat-fermented maize residue composite flour at 0 – 30% replacement levels. Effects of this addition on the functional and pasting properties of the flour composite was evaluated. The snack produced was also evaluated for its sensory attributes, proximate composition and invitro-protein digestibility (IVPD). Functional properties results showed an increase in water absorption capacity (WAC), a decrease in oil absorption capacity (OAC), decrease in Bulk Density (BD), swelling power and solubility index with residue addition. Pasting property results showed a drop in the value of peak, trough, breakdown and final viscosity with substitution while set back viscosity increased.Peak temperature decreased, but values for pasting temperature showed no significant difference between the control and the blends. Results for sensory evaluation showed equal preference for overall acceptability. Proximate composition results showed residue addition led to an increase in crude fibre and protein content with a drop in the carbohydrate value. Residue addition did not increase protein digestibility. Addition of fermented maize residue in chin-chin production can be another way of utilizing the fibre rich by-product of the production of fermented maize starch.

scholarly journals The evaluation of nutritional composition and functional and pasting properties of wheat flour-coconut flour blends

2019 ◽  
Vol 11 (1) ◽  
pp. 21-29 ◽  
Author(s):  
Folasade Maria Makinde ◽  
Ayobami Opeyemi Eyitayo
Keyword(s):  
Bulk Density ◽  
Wheat Flour ◽  
Cocos Nucifera ◽  
Proximate Analysis ◽  
Pasting Properties ◽  
Nutritional Composition ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Iron And Zinc ◽  
Flour Blends

The feasibility of partially replacing wheat flour with coconut flour in baked products was investigated. Matured coconut (Cocos nucifera) endocarp was grated for the extraction of milk, dried, milled,and pulverized. Five blends of composite flour were prepared by combining wheat flour with 10% to 50% of partially defatted coconut flour,respectively. The 100% wheat flour served as control. The samples were analysed for proximate, mineral, functional,and pasting properties using standard procedures. The proximate analysis indicated 5.52 % moisture, 23.6% protein, 11.14% fibre, 5.4% fat, 5.21% ash,and 49.1% carbohydrate for coconut flour. The ranges of the proximate composition forthe flour blends were:moisture (4.79-5.55%), protein (14.9 -19.1%), fibre (0.44 -5.12%), fat (2.9 -5.3%), ash (0.68-2.13%), carbohydrate (62.7-76.2%),and energy (315.26-335.28 kCal). The values for moisture, protein, fat, fibre,and ash increased with the increasing levels of coconut substitution,except for carbohydrate and energy contents. There were significant differences (p≤0.05) in calcium, magnesium, potassium, phosphorus, iron,and zinc concentrations of the samples. The range of values obtained for these parameters was1.32-2.59 mg/kg, 2.60-3.83 mg/kg, 12.10-16.89 mg/kg, 12.40-18.50 mg/kg,0.50-1.22 mg/kg and 0.30-1.23 mg/kg, respectively. The ranges of functional properties were:loosed bulk density (0.28-0.49 g/mL),packed bulk density (0.44-0.75 g/mL), pH (5.77-6.57), swelling capacity (3.89-6.56%), water absorption capacity (0.89-3.97 ml/g),oil absorption capacity (1.26-3.20 ml/g),and gelation (12.0-18.0%). The pasting characteristics showed significant differences betweenthe100% wheat flour and coconut substituted samples. The results revealed modifications in nutritional, functional,and pasting properties in blends containing fractions of partially defatted coconut flour,which suggeststheir application in diverse food products.

scholarly journals Functional and Pasting Properties of Composite Flours from Triticum durum, Digitaria exilis, Vigna unguiculata and Moringa oleifera Powder

2020 ◽  
pp. 40-49
Author(s):  
C. A. Orisa ◽  
S. U. Udofia
Keyword(s):  
Vigna Unguiculata ◽  
Triticum Durum ◽  
Moringa Oleifera ◽  
Pasting Properties ◽  
Composite Flour ◽  
Oil Absorption ◽  
Composite Flours ◽  
Leaf Powder ◽  
Gelation Concentration ◽  
Flour Blends

The objective of this study was to determine the functional and pasting properties of composite flours from Triticum durum (wheat), Digitaria exilis (acha), Vigna unguiculata (cowpea) flours and Moringa oleifera leaf powder. The flour samples were mixed in a four by four factorial, in complete randomized design (CRD) to formulate the composite blends at four different levels (25, 50, 75 and 100) which gave 16 samples. The statistical analysis of data collected was used to select five (5) generally accepted composite flour samples (wheat, acha, cowpea and moringa oleifera leaf powder flours) with ratio of 100:0:0:0, 75:25:0:0, 0:50:50:0, 50:23:25:2 and 75:25:0:0, respectively. The flour samples were analyzed for functional and pasting properties using standard methods. Results of the functional properties showed that water absorption capacity of the composite flour blend ranged from 0.87-1.11g/g, bulk density 0.39-0.42 g/ml, least gelation concentration 2.00-4.00%, solubility 19.46-25.35%, wettability 2.57-4.02min, oil absorption 1.61-1.79g/g and least gelation temperature 62.00-68.50oC. The functionality of the composite flours such as water and oil absorption capacities, least gelation concentration and bulk density were improved when cowpea was incoporated into the blends than for moringa oleifera leaf powder and acha flour. On the other hand, wettability and solubility of the flour blends were improved when acha was incorporated into the blend. Results of pasting properties showed that peak viscosity ranged from 73.04-385.79RVU, trough viscosity 57.96-341.42RVU, break down viscosity 15.08-44.38RVU, final viscosity 109.54-581.58RVU, set back viscosity 51.58-240.17RVU, pasting time 5.70-6.40min and pasting temperature 50.08oC-50.35oC. These properties were shown to be higher when cowpea was incorporated into the flour blends than for moringa oleifera leaf powder and acha flour. However, pasting properties of the composite flour blends were higher than 100% wheat flour. This result therefore showed that composite flour from wheat, acha, cowpea and Moringa oleifera leaf powder has improved functionality and high pasting properties than the individual wheat flour and will serve as a useful ingredient in food formulations such as in dough, soups and baked products.

scholarly journals QUALITY ATTRIBUTES OF COOKIES PRODUCED FROM COMPOSITE FLOURS OF WHEAT, GERMINATED FINGER MILLET FLOUR AND AFRICAN YAM BEAN

2018 ◽  
Vol 6 (11) ◽  
pp. 172-183
Author(s):  
Abioye V.F ◽  
Olatunde S.J ◽  
Elias G
Keyword(s):  
Functional Properties ◽  
Finger Millet ◽  
Absorption Capacity ◽  
Composite Flour ◽  
Crude Fibre ◽  
African Yam Bean ◽  
Composite Flours ◽  
Calcium Phosphorus ◽  
Flour Blends ◽  
Locally Grown

Cookies are ready to eat convenient food for all ages and the consumption is on the increase in Nigeria due to urbanization which has led to increase in wheat importation. In order to reduce the effects of wheat importation on the economy, this study looked into the use of locally grown crops for production of cookies. Cookie samples were produced from blends of wheat flour, germinated finger millet and African yam bean. Different proportions of flour blends were obtained using design experts. The flour mixes were evaluated for the proximate, minerals composition, antinutrients and the functional properties while the sensory properties of the cookies were determined. The proximate composition of the composite flour varied from 12.20-12.54; 8.89-10.62; 1.31-1.65; 1.13-1.39; 1.82-1.48 and 74.33-72.66% for moisture, protein, fat, crude fibre, ash and carbohydrate content of the flour, respectively. The mineral content of the flour ranged from 9.064-9.10, 0.29- 0.32, 0.42-0.45, 0.24-0.28% for calcium, phosphorus, potassium and sodium, respectively. The anti-nutritional properties of the flour ranged from 0.0074 to 0.0098%, 0.1700 to 0.1990%, 0.0905 to 0.1080% and 1.2500 to 1.4900%, for tannin, phytate, oxalate and trysin inhibitor, respectively. The functional properties of the composite flour ranged from 0.66-0.67 g/ml; 25.87- 27.48 g/ml; 6.11-8.12 g/ml; 0.75- 0.83 g/ml; 106.65 to 124; 91.70-99.75 g/100g; for bulk density, water absorption capacity, oil water capacity, foaming capacity and foaming solubility, respectively. The sensory attributes studied were colour, taste, texture and crispness. This study has shown that there was a notable improvement on the nutritional and functional properties of the flour while there was reduction in the ant nutrients.

scholarly journals Influence of hydrocolloids addition (carboxymethylcellulose and guargum) on some quality attributes of wheat and high quality cassava flour and its bread making potentials

2020 ◽  
Vol 15 (1-2) ◽  
pp. 45-53
Author(s):  
Olawale Paul Olatidoye ◽  
Abdulrazak Shittu ◽  
Sunday Samuel Sobowale ◽  
Wasiu Ajani Olayemi ◽  
Isi Favour Adeluka
Keyword(s):  
Effective Means ◽  
Quality Attributes ◽  
Pasting Properties ◽  
Absorption Capacity ◽  
Bread Quality ◽  
Composite Flour ◽  
Loaf Volume ◽  
High Quality ◽  
Cassava Flour ◽  
Sensory Score

High quality cassava flour (HQCF) is now widely used production of baked foods in Nigeria but bread quality is impaired when it is used in the bread formulation. In order to overcome this problem, six breads samples were produced from wheat/HQCF/hydrocolloid:T0100%wheat flour(control);T190:9:CMC;T290:9:GG;T3,80:18:CMC;T4,80:18:GG;T570:27:CMC;T670:27:GG. The flour blends were analyzed for functional, colour and pasting properties while breads characteristics and sensory evaluation were performed in order to assess effect of hydrocolloids on bread. The results showed composite flour with hydrocolloids had the highest bulk density (0.704g/ml), water absorption capacity (2.98m/g), least gelation concentration (4.4g/g), oil absorption capacity (0.71m/g), while control had the highest swelling capacity (1.68g/g). Significant differences at p&lt;0.05 were found on the pasting properties of addition of hydrocolloids with lower pasting temperature (71oC) and time (6.08 min). Bread quality attributes such as loaf volume, specific loaf volume, oven spring, crust colour, crumb colour and firmness of the fresh breads significantly improved with the addition of hydrocolloids compared with bread produced without improvers. The results show that high quality cassava flour could be incorporated up to 18% with carboxymethylcellulose at 2% level without affecting its overall acceptability and thereby enhance the potential for using locally produced flours in bread baking. Sensory score of bread from the addition of hydrocolloids were all acceptable by the panelist. The addition of hydrocolloids could be used as an effective means of improving the quality of gluten free bread.

scholarly journals Evaluation of Stiff Porridge (Ruam nahan) Produced from Composite Flour Blends of Pearl Millet (Pennisetum glaucum) and African Yam Bean (Sphenostylis stenocarpa)

2021 ◽  
pp. 63-77
Author(s):  
T. A. Dendegh ◽  
B. M. Yelmi ◽  
R. A. Dendegh
Keyword(s):  
Pearl Millet ◽  
Pennisetum Glaucum ◽  
Mineral Elements ◽  
Absorption Capacity ◽  
Composite Flour ◽  
African Yam Bean ◽  
Bean Flour ◽  
Composite Flours ◽  
Gelation Concentration ◽  
Flour Blends

Quality attributes of stiff porridges prepared from Pearl millet and African Yam Bean (AYB) flour blends were studied. Various ratios such as A (100% pearl millet), B (90:10), C (80:20), D (70:30), E (60:40) and F (50:50) of pearl millet and African Yam Bean (AYB) composite flours were mixed and analyzed for functional, proximate composition, mineral elements and sensory properties. The blends were then prepared into stiff porridges for sensory evaluation using a 20-man sensory panel. Substitution of African Yam Bean with Pearl Millet led to increases in moisture (24.29 to 37.50%) protein (10.90 to 19.70%), fibre (1.30 to 2.00%), Ash (0.43 to 0.55%) and fat (3.80 to 5.20%) while the carbohydrate content of the blends decreased (from 62.07 to 39.85%) respectively. Functional properties such as bulk density decreased with increase in AYB from (1.80 to 0.72 g/ml, swelling index also increases from 0.75 to 0.56 g/ml, water absorption capacity decreases from 2.20 to 2.64 g/ml) and Least Gelation Concentration (6%). The sensory attributes of stiff porridges were not adversely affected by African Yam Bean flour. Therefore, it should be possible to incorporate up to 50% of legumes such as African Yam Bean with Pearl Millet in the preparation of stiff porridges.

scholarly journals Effect of Carrot Powder Addition on the Quality Attributes of Cookies Produced from Wheat and Soy Flour Blends

2019 ◽  
pp. 1-13
Author(s):  
M. T. Ukeyima ◽  
T. A. Dendegh ◽  
P. C. Okeke
Keyword(s):  
Wheat Flour ◽  
Proximate Composition ◽  
Absorption Capacity ◽  
Soy Flour ◽  
Composite Flour ◽  
Oil Absorption ◽  
Overall Acceptability ◽  
Spread Ratio ◽  
Powder Addition ◽  
Flour Blends

Aim: To evaluate effect of carrot powder addition on the quality attributes of cookies produced from wheat and soy flour blends. Study Design: Cookies were produced from wheat flour, soy flour and carrot powder composite blends. Functional (bulk density, foam capacity, oil absorption capacity, water absorption capacity and swelling index) properties, Proximate (crude protein, ash, moisture, crude fibre, crude fat, carbohydrate and energy value) composition, Physical (weight, diameter, thickness and spread ratio) and sensory (appearance, flavour, taste, texture and overall acceptability) attributes were determined. Results: The functional properties showed that Bulk Density ranged from 0.82 – 0.92, Foam capacity ranged 3.92 – 5.00, Oil Absorption Capacity ranged from 0.60 – 0.97%, Water Absorption Capacity ranged from 1.05 – 1.45% and Swelling Index ranged from 2.37 – 2.75. Results of percentage proximate composition showed that moisture content ranged from 4.70 – 7.57, protein content ranged from 10.61 – 21.60, fat content ranged from 8.89 – 15.85, fibre content ranged from 1.39 – 4.30, ash content ranged from 0.70 – 1.23 and carbohydrate content ranged from 52.34 – 70.84. The physical properties showed that weight of the cookies ranged from 17.85 – 21.60, diameter ranged from 57.50 – 60.50, thickness ranged from 20.50 – 24.00 and spread ratio ranged from 2.40 – 2.91. The sensory attribute showed that cookies produced from wheat flour, soy flour and carrot powder compared well with cookies produced with wheat flour. The wheat flour cookie sample (A) was most preferred by the panellist. Conclusion: The functional properties of the composite flour produced from wheat, soybean and carrot powder show potential quality that when properly harnessed could be used for the production of baked product like biscuits, pastry etc. The proximate composition shows that the composite flour cookies were the most preferred sample to the 100% wheat flour cookies. This is due to its high protein, fat, ash and fibre content to that of thee 100% wheat cookies. However, in terms of proximate composition, the composite cookies were most acceptable. The physical property of the cookies indicates that the composite flour cookies were most preferred to the 100% wheat cookie. This could be seen from the high values it’s had in weight, diameter and spread ratio. However, the sensory score of the overall acceptability shows that the 100% wheat cookies were most acceptable. Though, the composite flour cookies compete very closely with 100% wheat cookies.

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