共查询到20条相似文献,搜索用时 15 毫秒
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紫外技术在食品工业中的应用 总被引:5,自引:0,他引:5
概括地介绍了紫外技术在食品工业中的应用 ,即紫外杀菌的原理及其在表面杀菌、空气杀菌和液、固体物料杀菌上的应用 ,并简要介绍了其在果蔬保鲜和改善食品加工性能等方面的应用 相似文献
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电子鼻及其在食品行业中的应用 总被引:2,自引:0,他引:2
电子鼻是一种新颖的模拟人的嗅觉来分析、识别和检测复杂嗅味和挥发性成分的仪器,本文介绍了电子鼻的基本原理和组成,详细介绍了电子鼻在食品行业中的应用,同时其市场前景进行了展望。 相似文献
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壳聚糖的生产及其在食品工业中的应用 总被引:2,自引:0,他引:2
壳聚糖是一种丰富的天然资源.近年来,壳聚糖的开发应用受到国内外的重视,越来越多的产品从实验室走向市场.概述了壳聚糖的研究现状和最新进展,并介绍了壳聚糖的性质和生产方法;着重讨论了其在食品工业中的应用. 相似文献
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Nanobiotechnology perspectives. Role of nanotechnology in the food industry: a review 总被引:1,自引:0,他引:1
Nelson Durán Priscyla D. Marcato 《International Journal of Food Science & Technology》2013,48(6):1127-1134
Nanotechnology is becoming increasingly important for the food sector. Promising results and applications are already being developed in the areas of nutrient delivery systems through bioactive nanoencapsulation, biosensors to detect and quantify pathogens organic compounds, other chemicals and food composition alteration, and even edible film to preserve fruit or vegetables. This article reviews the application and the benefits of nanotechnology in different areas of food industry that include bioactive nanoencapsulation, edible thin film, packages and nanosensors. It is possible to conclude from the review that the nanotechnology advances increase the safety and quality of food and mainly decrease the time for pathogen detection. 相似文献
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本文简要介绍了特种食品的概念及在特殊条件下的基本要求,讨论了纳米技术在特种食品研究开发中的可行性,展望了纳米技术在特种食品研究开发中的应用前景。 相似文献
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《Trends in Food Science & Technology》2002,13(6-7):205-216
Laccase is a widely studied enzyme because of its potential use in several areas such as textile, paper and pulp industries. This review presents the potential application of this enzyme in the food industry. Laccase can be used in bioremediation, beverage (wine, fruit juice and beer) processing, ascorbic acid determination, sugar beet pectin gelation, baking, and as biosensor and to improve food sensory parameters. Laccase could increase productivity, efficiency and quality of food products without a costly investment and has the advantage of being a mild technology. 相似文献
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Protein engineering is a young discipline that has been branched out from the field of genetic engineering. Protein engineering is based on the available knowledge about the proteins structure/function(s), tools/instruments, software, bioinformatics database, available cloned gene, knowledge about available protein, vectors, recombinant strains and other materials that could lead to change in the protein backbone. Protein produced properly from genetic engineering process means a protein that is able to fold correctly and to do particular function(s) efficiently even after being subjected to engineering practices. Protein is modified through its gene or chemically. However, modification of protein through gene is easier. There is no specific limitation of Protein Engineering tools; any technique that can lead to change the protein constituent of amino acid and result in the modification of protein structure/function is in the frame of Protein Engineering. Meanwhile, there are some common tools used to reach a specific target. More active industrial and pharmaceutical based proteins have been invented by the field of Protein Engineering to introduce new function as well as to change its interaction with surrounding environment. A variety of protein engineering applications have been reported in the literature. These applications range from biocatalysis for food and industry to environmental, medical and nanobiotechnology applications. Successful combinations of various protein engineering methods had led to successful results in food industries and have created a scope to maintain the quality of finished product after processing. 相似文献
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