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By: V. Basil Hans and Rashmi Shenoy.
1. Research Professor, Department of Commerce & Management and Humanities & Social
Sciences, Srinivas University, Mangalore, Karnataka, India,
2. Assistant Professor, Department of Forensics Science, Srinivas University, Mangalore,
Karnataka, India
An essential part of contemporary technology is microwave energy, a form of electromagnetic radiation having wavelengths between one metre and one millimetre. Its uses extend well beyond the kitchen, even though it is usually associated with cooking. This article overviews basic concepts of microwave energy, the interaction with materials and the generation of heat by dielectric heating. It also shows a range of applications including telecommunications, radar, medical treatments and industrial processing. The essay analyses the advantages and disadvantages of microwave technology to give a complete grasp of its place in the everyday life and in the modern scientific discoveries. Above all, it highlights the ongoing role of microwave radiation in driving innovation and reaffirms its place as a powerful and adaptable tool of the modern world. Additionally, recent advances in microwave engineering have made it possible to advance defence systems, biomedical imaging, remote sensing, smart sensors, and renewable energy technologies, highlighting the increasing significance of microwave applications in cutting-edge scientific and technological advancements. In order to provide readers a thorough grasp of microwave technology’s function in daily life and contemporary scientific advancements, the article also assesses its benefits and drawbacks. All things considered, microwave radiation is still a very useful and potent instrument in today’s technology world and continues to spur innovation.
Keyword- Microwave Power, Electromagnetic Radiation, Dielectric Heating, Microwave Applications, Industrial Processing, Telecom, Radar systems
Citation:
Refrences:
- Deng X, Huang H, Huang S, Yang M, Wu J, Ci Z, He Y, Wu Z, Han L, Zhang D. Insight into the incredible effects of microwave heating: Driving changes in the structure, properties and functions of macromolecular nutrients in novel food. Frontiers in Nutrition. 2022 Oct 13;9:941527.
- Pitchai K, Birla SL, Subbiah J, Jones D, Thippareddi H. Coupled electromagnetic and heat transfer model for microwave heating in domestic ovens. Journal of Food Engineering. 2012 Sep 1;112(1-2):100-11.
- Stalder LD, Saltmarch M, Findley GD, McProud LM. Microwave Cooking: Knowledge, Attitudes, and Practices of California Foods Teachers. Home Economics Research Journal. 1990 Sep;19(1):38-46.
- Deng X, Huang H, Huang S, Yang M, Wu J, Ci Z, He Y, Wu Z, Han L, Zhang D. Insight into the incredible effects of microwave heating: Driving changes in the structure, properties and functions of macromolecular nutrients in novel food. Frontiers in Nutrition. 2022 Oct 13;9:941527.
- Fleischman GJ. Microwave Heating: General Concerns, Myths, and Realities. InMicrowave Processing of Foods: Challenges, Advances and Prospects: Microwaves and Food 2024 Aug 28 (pp. 3-16). Cham: Springer International Publishing.
- Tang J. Unlocking potentials of microwaves for food safety and quality. Journal of food science. 2015 Aug;80(8):E1776-93.
- Fung DY, Cunningham FE. Effect of microwaves on microorganisms in foods. Journal of Food Protection. 1980 Aug 1;43(8):641-50.
- Osepchuk JM. Microwave power applications. IEEE Transactions on Microwave Theory and Techniques. 2002 Aug 7;50(3):975-85.
- Schiffmann RF. Microwave processes for the food industry. InHandbook of microwave technology for food application 2001 Apr 27 (pp. 299-338). CRC Press.
- Ramaswamy H, Tang J. Microwave and radio frequency heating. Food Science and Technology International. 2008 Oct;14(5):423-7.