射频辅助热处理软面粉的功能性研究

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Sreenivasula Boreddy, Jeyamkondan Subbiah
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引用次数: 0

摘要

评价了RF加工软小麦粉(SWF)在甜脆饼干中的功能。在80°C 7小时和90°C 2小时的射频处理条件下,swf的功能是可以接受的。研究证明了射频辅助SWF热加工的可行性。摘要小麦粉经过热处理,以确保用于蛋糕、饼干、婴儿食品等食品的微生物安全。传统的小麦粉热加工由于导热性差,耗时较长。新的热加工方法,如射频辅助加工,有望取代传统的方法。然而,为了确保新方法的最终接受和适应性,射频加工面粉在饼干和面条等预制产品中的性能很重要。本研究的目的是评估射频(RF)辅助热加工软小麦粉(SWF)在最终产品(即糖脆饼干)中的功能。糖脆饼干由射频加工、未经巴氏消毒和商业加工的SWFs按照标准方法制备。对所制备的饼干的宽度、厚度等质量进行了评价和比较。rf辅助热处理条件为80°C 7 h和90°C 2 h时,糖脆饼干的宽度差异不显著(P >0.05),与未经高温消毒的SWF不同。所有rf辅助热处理条件下的饼干厚度都显著高于未经巴氏消毒的条件。然而,在所有rf辅助热处理条件下,糖脆饼干的颜色、硬度和可裂性值与未经巴氏消毒的条件相比没有显著差异。糖脆饼干中面粉的功能表明,选定的rf辅助热处理温度和时间组合(80°C 7小时和90°C 2小时)对SWF的功能没有显著影响。因此,本研究证明了新型rf辅助SWF热加工的可行性,而不会影响面粉在最终产品中的功能。关键字:单击此处输入关键字和关键短语,以逗号分隔,最后加句号
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functionality of Soft Wheat Flour Treated by Radiofrequency Assisted Thermal Processing
Highlights Functionality of RF processed soft wheat flour (SWF) in the sugar-snap cookies was evaluated. Functionality of the SWFs at RF processing conditions of 80°C for 7 h and 90°C for 2 h is acceptable. Study demonstrated the feasibility of RF-assisted thermal processing of SWF. ABSTRACT. Wheat flours are thermally processed to ensure microbiological safety for use in food products such as cakes, cookies, baby foods, etc. Traditional thermal processing of wheat flour takes a long time because of its poor thermal conductivity. Novel thermal processing methods, such as radiofrequency assisted processing, are poised to replace the traditional methods. However, to ensure the final acceptance and adaptability of novel methods, the performance of RF-processed flours in prepared products such as cookies and noodles is important. The objective of this study is to evaluate the functionality of radiofrequency (RF)-assisted thermally processed soft wheat flour (SWF) in the end products, namely sugar-snap cookies. Sugar-snap cookies were prepared from RF-processed, unpasteurized, and commercially processed SWFs following a standard method. The qualities of the prepared cookies, such as width, thickness, etc., were evaluated and compared. The width of the sugar-snap cookies of the RF-assisted thermal process conditions of 80°C for 7 h and 90°C for 2 h was not significantly (P > 0.05) different from that of the unpasteurized SWF. The cookie thickness for all the RF-assisted thermally processed conditions was significantly higher than that of the unpasteurized condition. However, the color, hardness, and fracturability values of sugar-snap cookies were not significantly different at all the RF-assisted thermal processing conditions when compared with those of the unpasteurized condition. The functionality of the flours in sugar-snap cookies indicates that the selected RF-assisted thermal processing temperatures and time combinations of 80°C for 7 h and 90°C for 2 h did not influence the functionality of the SWF significantly. Thus, this study demonstrates the feasibility of novel RF-assisted thermal processing of SWF without compromising the flour's functionality in the end products. Keywords: Click here to enter keywords and key phrases, separated by commas, with a period at the end
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CiteScore
3.10
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