Production and Quality Evaluation of Ready to Eat Extruded Snacks from Flour Blends of Acha-Cowpea and Sweet Potato Starch (original) (raw)
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Agricultural Engineering International: The CIGR Journal, 2012
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Changes in physical properties of extruded sour cassava starch and quinoa flour blend snacks
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Given the broad acceptance of sour cassava starch biscuits in Brazil and the nutritional quality of quinoa flour, this study aimed to evaluate the effect of extrusion temperature, screw speed, moisture, and amount of quinoa flour on the physical properties of puffed snacks. Extrusion process was carried out using a single-screw extruder in a factorial central composite design with four factors. Effects of moisture and amount of quinoa flour on the expansion index and specific volume of snacks were observed. There was a pronounced increase in water solubility index of blends with the extrusion process with significant effects of all process parameters on the WSI. Higher water absorption index (WAI) was observed under high temperature, low moisture, and lower quinoa flour amount. Temperature and amount of quinoa flour influenced the color of the snacks. A positive quadratic effect of quinoa flour on hardness of products was observed. Blends of sour cassava starch and quinoa flour have...
Food Science and Technology, 2013
The opportunity to supplement common cassava biscuits with a product of higher nutritional value meets consumer expectations. In this work it was studied the effects of process parameters and flaxseed addition on physical properties of expanded snacks. Extrusion process was carried out using a single screw extruder in a factorial central composite rotatable design with four factors: flaxseed flour percentage (0-20%), moisture (12-20%), extrusion temperature (90-130 °C) and screw speed (190-270). The effect of extrusion variables was investigated in terms of expansion index, specific volume, water absorption index, water solubility index, color parameters (L*, a* ,b*) and hardness. The data analysis showed that variable parameters of the extrusion process and flaxseed flour affected physical properties of puffed snacks. Among the experimental conditions used in the present study, expanded snack products with good physical properties can be obtained under the conditions of 10% flaxseed flour, 230 rpm screw speed, temperature of 90 °C and moisture of 12%.
Physical properties of snacks made from cassava leaf flour
Semina: Ciências Agrárias, 2014
The food industry is continually growing with new products becoming available every year. Extrusion combines a number of unit operations in one energy efficient rapid continuous process and can be used to produce a wide variety of snacks foods. The objective of this study was to evaluate the effect of extrusion temperature, screw speed, and amount of cassava leaf flour mixed with cassava starch on the physical properties of extruded snacks processed using a single screw extruder. A central composite rotational design, including three factors with 20 treatments, was used in the experimental design. Dependent variables included the expansion index, specific volume, color, water absorption index, and water solubility index. Among the parameters examined, the amount of cassava leaf flour and extrusion temperature showed significant effects on extruded snack characteristics. Mixtures containing 10% of cassava leaf flour extruded at 100°C and 255 rpm shows favorable levels of expansion, color, water absorption index, and water solubility index.
Research Square (Research Square), 2023
Extruded snacks are commonly made with cereals with good expansion properties but low nutritional value. This study aimed to develop a nutrientrich optimized extruded snack by incorporating orange-eshed sweet potato, nger millet, and soybean our. The extrusion processing conditions were optimized using a response surface method with a range of barrel temperature (90-130°C) and (20-26%) feed moisture content. Thirteen treatment combinations were generated for this experiment using response surface methods and face-centered central composite design. Standard methods were used to evaluate the effect of barrel temperature and feed moisture content on extruded snacks' nutritional, anti-nutritional, physical, functional, and sensory acceptability. The data were analyzed using Design Expert software version 13. Multiple regression analysis showed signi cant effects of the independent variables on moisture, protein, fat, beta-carotene, bulk density, hardness, expansion ratio, WAI, WSI, and overall acceptability of the extrudates. The optimum response of 14.06% protein, 3.26% ash, 69.12% carbohydrate, 6.477mg/100g beta-carotene, 0.36g/ml BD, 2.72mm/mm ER, 87.28N hardness, 4.34g/g WAI, 22.34% WSI, and overall acceptability of 3.30 was achieved at a barrel temperature of 114.5°C and feed moisture content of 20%. The extrusion processing conditions signi cantly impacted the resulting extrudates' nutritional value and other properties. These ndings suggest that optimizing the extrusion processing conditions can lead to developing extruded snacks with desirable nutritional, physical, functional, and sensory properties. Article Highlights The study developed a nutrient-rich extruded snack using orange-eshed sweet potato, nger millet, and soybean our. The optimized conditions led to substantial improvements in nutritional and physicochemical qualities of the extrudates. These ndings underscore the signi cant potential of optimizing extrusion processing conditions for better quality of snack products.
Qualities Evaluation of Extruded Ready to Eat Snack from Composite Non-Wheat Flours
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Ready-to-eat flakes are processed grain formulations suitable for human consumption without further cooking in the home. Ready-to-eat flakes was produced from the mixtures of yellow maize, defatted soybean, defatted groundnut, moringa seed, scent leaf, pepper, salt and gray fish using extrusion technology at five different proportions of the ingredients. The proximate, minerals, antioxidant, functional properties, cracking strength and sensory properties of the formulations were investigated using standard methods. The research established that the use of local cereal based for the production of flakes is possible and good when using extrusion technology. The extruded products provide good quality flakes when supplemented maize with soybean and groundnut. It was deduced from the chemical composition of the flakes, that blending of cereals and legumes cause a significant increase in protein and carbohydrate contents making it a suitable ingredient for controlling malnutrition in diets. With respect to the nutritional composition, the addition of moringa seed to the blend samples increased the potassium, calcium, iron and phosphorus content of the flakes; this makes the blends better source of micronutrients. Also, the incorporating of moringa seed increased the total phenolic compound, vitamin C and flavonoids content. The samples from composite flour had the ability to withstand cracking strength compare to 100% wheat flour.
World Journal of Advanced Research and Reviews, 2021
Advocacy on the utilization of locally grown crops keeps increasing. This study was however carried out to evaluate the qualities of extruded snacks from blends of yellow cassava and sesame seeds flour. The yellow fleshed cassava roots and sesame seeds (germinated and fermented) were dried, milled and sieved prior to further analysis. Flour of each of the processed sesame seed was blended with yellow cassava flour at substitution levels of 0, 15 and 30%. Functional and anti-nutritional analyses were carried out on the flour blends. The flour blends were mixed thoroughly to produce extruded snacks in a single screw extruder before frying in a deep fryer. Anti-nutrient, proximate and sensory evaluations were carried out on the extruded snacks. There was considerable increase in the functional and proximate compositions with an increase in sesame seed flour incorporation most especially samples with 30% fermented sesame seeds flours, but with a considerably low anti-nutrient in the ext...
Journal of food science and technology, 2017
PR 106 and SML 668 cultivars of rice and mung bean respectively, were studied for their potential to serve as a nutritious snack with improved protein quality and quantity. The effect of extrusion conditions, including feed moisture content (14-18%), screw speed (400-550 rpm) and barrel temperature (130-170°C) on the physicochemical properties (bulk density, water absorption index (WAI), water solubility index (WSI) and hardness) was investigated. The replacement of rice flour at 30% level with mung bean flour for making extruded snacks was evaluated. Pasting temperature increased (84-93 °C) while peak viscosity (2768-408 cP), hold viscosity (2018-369 cP), breakdown (750-39 cP), setback (2697-622 cP) and final viscosity (4715-991 cP) decreased with increasing mung bean flour addition. Increasing feed moisture lowered the specific mechanical energy (SME), WAI and WSI of extrudates whereas increased bulk density and hardness. Higher screw speed had linear positive effect on SME of ext...
Journal of Food Processing and Preservation, 2021
PR 106 and SML 668 cultivars of rice and mung bean respectively, were studied for their potential to serve as a nutritious snack with improved protein quality and quantity. The effect of extrusion conditions, including feed moisture content (14-18%), screw speed (400-550 rpm) and barrel temperature (130-170°C) on the physicochemical properties (bulk density, water absorption index (WAI), water solubility index (WSI) and hardness) was investigated. The replacement of rice flour at 30% level with mung bean flour for making extruded snacks was evaluated. Pasting temperature increased (84-93°C) while peak viscosity (2768-408 cP), hold viscosity (2018-369 cP), breakdown (750-39 cP), setback (2697-622 cP) and final viscosity (4715-991 cP) decreased with increasing mung bean flour addition. Increasing feed moisture lowered the specific mechanical energy (SME), WAI and WSI of extrudates whereas increased bulk density and hardness. Higher screw speed had linear positive effect on SME of extruder and negative linear effect on WAI. Positive curvilinear quadratic effect of screw speed was also observed on WSI and density. Higher barrel temperature linearly decreased the SME, density and hardness of extrudates. Developed extrusion cooked rice-mung bean snacks with increased protein content and improved protein quality along with higher dietary fibre and minerals have good potential in effectively delivering the nutrition to the population.