{"title":"食品和生物材料的微波加工","authors":"Markos Makiso Urugo, Shimelis Admassu Emire, Tadele Tuba Tringo","doi":"10.17508/cjfst.2021.13.2.09","DOIUrl":null,"url":null,"abstract":"Microwave processing is one of the novel food processing technologies that \nuse electromagnetic radiation in the wavelength and frequency between 1 mm \nto 1 m and 300 MHz to 300 GHz, respectively. In this review, principles and \nvarious applications of microwave technology for food processing are \naddressed. A systematic literature search was conducted by using, Google \nScholar and, Web of Science, Open access theses and dissertations on the \nprinciples and application of microwave processing of food were summarized. \nAdditionally, references of each selected publication were examined to get \nmore relevant articles. In microwave processing, the food material absorbs \nmicrowave energy directly, and internally, and converts it to heat. The \ntechnology is applicable for different unit operations in food industries such as \ncooking, heating, drying, pasteurization, sterilization, thawing, tempering, \nbaking, blanching, and the extraction of important food biomaterials. \nMicrowave processing is highly advantageous over conventional food \nprocessing techniques, in terms of retaining the nutritional content of the food \nand reducing processing time. Consequently, the breakthrough of the \ntechnology in food processing industry has been predicted before. However, \nthe potential of microwave technology is not widely exhausted in Africa. It is \nassociated with a lack of awareness, a priority setting on the application of \nemerging technologies for safe and high quality value added products; \nmoreover, its high initial investment and operational power cost may become \na bottleneck for food processing companies in Africa. Therefore, food \ninnovation centres in Africa should drive high performance standards from \ntechnology adoption to improve the application of microwave technology in \nfood industries.","PeriodicalId":10771,"journal":{"name":"Croatian journal of food science and technology","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-12-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Microwave Processing of Food and Biological Materials\",\"authors\":\"Markos Makiso Urugo, Shimelis Admassu Emire, Tadele Tuba Tringo\",\"doi\":\"10.17508/cjfst.2021.13.2.09\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Microwave processing is one of the novel food processing technologies that \\nuse electromagnetic radiation in the wavelength and frequency between 1 mm \\nto 1 m and 300 MHz to 300 GHz, respectively. 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引用次数: 1
摘要
微波加工是一种新型食品加工技术,其使用波长和频率分别在1毫米至1米和300兆赫至300千兆赫之间的电磁辐射。本文综述了微波技术在食品加工中的原理和各种应用。利用Google Scholar和Web of Science进行了系统的文献检索,总结了关于微波食品加工原理和应用的开放获取论文。此外,还对每一份选定出版物的参考文献进行了审查,以获得更多相关文章。在微波加工中,食物材料直接从内部吸收微波能量,并将其转化为热量。该技术适用于食品行业的不同单元操作,如烹饪、加热、干燥、巴氏杀菌、杀菌、解冻、回火、烘焙、漂白和重要食品生物材料的提取。在保持食品的营养含量和减少加工时间方面,微波加工比传统的食品加工技术具有很大的优势。因此,该技术在食品加工行业的突破性进展早有预测。然而,微波技术的潜力在非洲并没有被广泛耗尽。这与缺乏意识有关,即对应用新兴技术生产安全和高质量增值产品缺乏优先考虑;此外,其高昂的初始投资和运营电力成本可能成为非洲食品加工公司的瓶颈。因此,非洲的食品创新中心应推动采用高性能标准的技术,以改进微波技术在食品工业中的应用。
Microwave Processing of Food and Biological Materials
Microwave processing is one of the novel food processing technologies that
use electromagnetic radiation in the wavelength and frequency between 1 mm
to 1 m and 300 MHz to 300 GHz, respectively. In this review, principles and
various applications of microwave technology for food processing are
addressed. A systematic literature search was conducted by using, Google
Scholar and, Web of Science, Open access theses and dissertations on the
principles and application of microwave processing of food were summarized.
Additionally, references of each selected publication were examined to get
more relevant articles. In microwave processing, the food material absorbs
microwave energy directly, and internally, and converts it to heat. The
technology is applicable for different unit operations in food industries such as
cooking, heating, drying, pasteurization, sterilization, thawing, tempering,
baking, blanching, and the extraction of important food biomaterials.
Microwave processing is highly advantageous over conventional food
processing techniques, in terms of retaining the nutritional content of the food
and reducing processing time. Consequently, the breakthrough of the
technology in food processing industry has been predicted before. However,
the potential of microwave technology is not widely exhausted in Africa. It is
associated with a lack of awareness, a priority setting on the application of
emerging technologies for safe and high quality value added products;
moreover, its high initial investment and operational power cost may become
a bottleneck for food processing companies in Africa. Therefore, food
innovation centres in Africa should drive high performance standards from
technology adoption to improve the application of microwave technology in
food industries.