Electronic nose and its application in the food industry: a review

被引:0
作者
Mingyang Wang
Yinsheng Chen
机构
[1] Harbin University of Science and Technology,School of Measurement and Communication Engineering
[2] Harbin University of Science and Technology,Postdoctoral Research Station of Computer Science and Technology
关键词
E-nose; Food industry; Gas sensor; Food detection; Information processing;
D O I
暂无
中图分类号
学科分类号
摘要
Food is closely related to human life. With the development of the times, the human demand for food has changed dramatically. People pay closer attention to the safety, health, composition, brand, origin, and processing method of food, which is precisely inseparable from food testing technology. Currently, there are many food inspection technologies, and the electronic nose (E-nose), as an efficient, fast, non-destructive, and promising technology, has been successfully applied in many aspects of the food industry and has shown promising results. This paper first introduces the basic principle and composition of the E-nose. Then it describes in detail the key elements, including gas sensor selection, sampling method design, data acquisition and information processing. Further summarizes the various typical applications of E-nose technology in the food industry in recent years, including six application directions: freshness assessment, process monitoring, flavor evaluation, authenticity evaluation, quality control, origin traceability and pesticide residue detection. Finally, the critical problems that need to be solved in the current application of E-nose technology in the food industry are discussed, and the potential future research directions in this field are foreseen.
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页码:21 / 67
页数:46
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共 346 条
[1]  
Mirhoseini-Moghaddam SM(2023)Application of electronic nose and eye systems for detection of adulteration in olive oil based on chemometrics and optimization approaches J Univ Comput Sci 29 300-325
[2]  
Yamaghani MR(2021)Development of food electronic nose for prawn (macrobrachium rosenbergii) quality rapid assessment and their relationship with the physicochemical index Int J Food Proper 24 346-353
[3]  
Bakhshipour A(2021)Identification of the raw and processed crataegi fructus based on the electronic nose coupled with chemometric methods Sci Rep 11 1849-378
[4]  
Jiang C(1964)An electronic analog for the olfactory processes a J Food Sci 29 372-355
[5]  
Ning J(1965)Polar vapour detector based on thermal modulation of contact potential J Sci Instr 42 624-211
[6]  
Mei Z(1982)Analysis of discrimination mechanisms in the mammalian olfactory system using a model nose Nature 299 352-114
[7]  
Chen J(1994)A brief history of electronic noses Sensors Actuators B: Chem 18 210-3469
[8]  
Gao Y(2022)Application of mos gas sensors coupled with chemometrics methods to predict the amount of sugar and carbohydrates in potatoes Molecules 27 3508-513
[9]  
Yi X(2022)Development of electronic nose for early spoilage detection of potato and onion during post-harvest storage J Mater NanoSci 9 101-1242
[10]  
Wu P(2022)Design of electronic nose detection system for apple quality grading based on computational fluid dynamics simulation and k-nearest neighbor support vector machine Sensors 22 2997-609