Effect of Extrusion Parameters on Physio-Chemical Properties of Extruded Products Prepares by Rice and Pigeon Pea Dal Broken Flour Blends

International Journal of Pure & Applied Bioscience Pub Date : 2019-10-30 DOI:10.18782/2320-7051.7797

Ajeet Sarathe

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Abstract

The traditional milling processing practices used in rice and pulses milling, yields significant amounts in the form of brokens from rice and dal mill industries. That brokens do not find appropriate market and are listed as losses of the milling industries, generally disposed off cheaply, whereas they have equally rich in the nutrition as comparable to whole grain. In developing countries protein malnutrition is a big issue for most of the population. The objective of this study was to develop a novel snack made with rice and pigeon pea dal brokens, yields from milling industries commonly considered as wastage, by using extrusion cooking technology. The effect of process parameters i.e. moisture content of feed and feed blend ration, as well as the operational parameters i.e. barrel temperature, die head temperature and screw speed of extruder on physio-chemical properties of extrudates were studied. A central composite rotatable design (CCRD) of response surface methodology was used to develop prediction model. Second order quadratic regression model was fitted in the variation. The significance was established at p≤ 0.05. The results suggested that the extrusion variables (i.e. process and operational parameters) were found significance influence on the extrudate physio-chemical properties as well as both independently and interactively. The feed blend ratio and extruder barrel temperature were observed to be the most significant factors that affected the extrudate properties. The best extrusion conditions was obtained at screw speed of 135 rpm, barrel temperature of 130 0 C and die head temperature 190 0 C based on moisture content, expansion ratio, bulk density, and protein content of the extruded products. This study demonstrated that extruded products could be prepared from blends of rice broken flour and pigeon pea dal broken flour under different ranges of extrusion conditions.

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挤压参数对大米与鸽豆豆碎粉共混挤压制品理化性能的影响

传统的碾磨加工方法用于大米和豆类碾磨，从大米和扁豆碾磨工业中产生大量的碎料。这些碎谷物找不到合适的市场，被列为碾磨业的损失，通常被廉价处理掉，而它们的营养成分与全谷物一样丰富。在发展中国家，蛋白质营养不良对大多数人来说是一个大问题。本研究的目的是开发一种新型的零食，利用大米和鸽豆豆碎，通常被认为是浪费的碾磨工业的产量，利用挤压蒸煮技术。研究了原料含水率、混合比例等工艺参数以及挤出机筒体温度、模头温度、螺杆转速等操作参数对挤出物理化性能的影响。采用响应面法的中心复合可旋转设计(CCRD)建立预测模型。方差拟合二阶二次回归模型。p≤0.05具有显著性。结果表明，挤出工艺参数和操作参数对挤出物的理化性能既有独立影响，也有交互影响。结果表明，物料配比和挤出机筒体温度是影响挤出物性能最显著的因素。根据挤出产品的含水率、膨胀率、容重和蛋白质含量，确定了最佳挤出条件为:螺杆转速135转/分、料筒温度130℃、模头温度190℃。本研究表明，在不同的挤压条件下，米碎粉与木豆碎粉混合可制得挤压产品。

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International Journal of Pure & Applied Bioscience

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