氮气辅助挤压蒸煮生产的黄豌豆和红扁豆挤压物的功能和热性能。

Functional and thermal properties of yellow pea and red lentil extrudates produced by nitrogen gas injection assisted extrusion cooking.

机构信息

Department of Food Engineering, Tayfur Sokmen Campus, Hatay Mustafa Kemal University, Antakya, Turkey.

Food and Human Nutritional Sciences Department, University of Manitoba, Winnipeg, Manitoba, Canada.

出版信息

J Sci Food Agric. 2019 Dec;99(15):6796-6805. doi: 10.1002/jsfa.9964. Epub 2019 Sep 18.

DOI:10.1002/jsfa.9964

PMID:31368528

Abstract

BACKGROUND

There are excellent opportunities for greater incorporation into our diets of pulses, which are rich in proteins and dietary fibers, if their functional properties are modified to fit a wide range of applications in the food industry. The objective of this research was to produce high protein and fiber extrudates from yellow pea and red lentil flours using conventional and N gas injection assisted extrusion cooking methods. The effects of process variables on extrudate functional and thermal properties were also investigated.

RESULTS

The cold viscosity of extrudates produced by N gas injection were higher than those produced by conventional extrusion, indicating that gas-assisted extrusion does affect the end-product pasting properties. At higher barrel temperatures (150-175 °C) extrudates did not exhibit any thermal transition in their thermograms, and thus their starches were completely gelatinized and proteins completely denatured during extrusion. In general, water solubility of extrudates produced by N gas injection was significantly (P < 0.05) higher than those produced by conventional extrusion. Emulsion capacity and stability of yellow pea extrudates were in the range of 44-50% and 42-47%, respectively, and the counterpart values of red lentil extrudates were very similar (in the range of 43-47% and 43-46%, respectively).

CONCLUSION

Nitrogen gas injection assisted extrusion cooking can be used practically in development of pulse extrudates which contain high protein and dietary fiber. This novel and innovative technique is a reliable alternative method to the conventional CO gas injection assisted extrusion cooking methods in the snack food and food ingredient industries. © 2019 Society of Chemical Industry.

摘要

背景

如果能改变豆类的功能特性，使其更适用于食品工业的各种应用，我们就有极好的机会在饮食中增加豆类的摄入量，因为豆类富含蛋白质和膳食纤维。本研究的目的是使用常规和 N 气体喷射辅助挤压蒸煮方法，从黄豌豆和红扁豆面粉中生产高蛋白和高纤维的挤压物。还研究了加工变量对挤压物功能和热特性的影响。

结果

N 气体喷射生产的挤压物的冷黏度高于常规挤压生产的挤压物，这表明气体辅助挤压确实会影响最终产品的糊化特性。在较高的机筒温度（150-175°C）下，挤压物的热图谱中没有表现出任何热转变，因此在挤压过程中，其淀粉完全糊化，蛋白质完全变性。一般来说，通过 N 气体喷射生产的挤压物的水溶性显著（P < 0.05）高于通过常规挤压生产的挤压物。黄豌豆挤压物的乳化能力和稳定性分别在 44-50%和 42-47%的范围内，红扁豆挤压物的对应值非常相似（分别在 43-47%和 43-46%的范围内）。

结论

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氮气辅助挤压蒸煮生产的黄豌豆和红扁豆挤压物的功能和热性能。

Functional and thermal properties of yellow pea and red lentil extrudates produced by nitrogen gas injection assisted extrusion cooking.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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