Microwave technologies and devices separating fur from rabbit skin
Abstract
The purpose of this work is the development of microwave technology and de-vices separating fur from rabbit skins in a continuous mode at reduced operating costs. They developed the method for the action of the ultrahigh frequency electro-magnetic field (UFEF), which provides the reduction of fur fiber holding power in the meat fabric of rabbit skins with simultaneous combing and gathering. They calcu-lated the mathematical dependences describing the dynamics of multicomponent raw material heating with the change of dielectric and physicomechanical parameters in the process of UFEF. They calculated and visualized the electromagnetic field distri-butions in the developed resonators, on the basis of which they substantiated the ef-fective parameters of the electrodynamic system: the maximum property, the quality of resonators and the electric field strength. They substantiated the complex of struc-tural and technological parameters of devices with new structural design of working chambers by a multi-criteria evaluation of the technological process for the separation of fur from rabbit skin. They manufactured and tested the microwave device under production conditions for the separation of fur from rabbit skin, and adjusted the op-erating modes, which allow to reduce operating costs. They evaluated the technical and economic efficiency of microwave technology introduction for the processing of fur and the devices for rabbit farms; they developed practical recommendations for the operation of microwave units to separate fur from rabbit skins.
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References
Bondarenko, S. P. (2003). The processing and manufacture of products from rab-bit skins. - M.: LLC Publishing House AST, 168. ISBN 4-17- 014581-0.
Dautov, O. Sh., Zamaletdinova, L. Ya., & Morozov, G. A. (1996). Mathematical mod-els of agricultural product microwave processing. KSTU Bulletin named after A.N. Tupolev. - Kazan: KSTU. 4, 44–47.
Didenko, A. V. (2003). SVCh-energetika: teoriya i praktika (Microwave Power: Theory and Practice).
Dorokhov, A. S. (2010). Automation of measurements during quality control of agricultural machinery spare parts. The collection of scientific reports VIM. Moscow: All- Russian Research Institute of Agricultural Mechanization, 2, 448 ... 457.
Drogaytseva, O. V. (2011). Uniformity level increase of dielectric material heating in the microwave devices of waveguide and resonator types. The thesis for the degree of technical science candidate. - Saratov: SSTU, 207.
Ershova, I. G., Ershov, M. A., & Poruchikov, D.V. (2017). Justification of low-potential energy source transfer regulation in the heat pump system. The Journal "Fundamental Foundations of Mechanics", 2, 32-33.
Glushakov, S. V., & Zhakin, I. A., & Khachirov, T. S. (2001). Math modeling. MathCad 2000. Matlab 5.3. - M.: Folio, 528.
Grigoriev, A. D. (2007). Electrodynamics and microwave technology: a textbook. - SPb.: Lan, 704.
Ivashov, V. I. (2001). Technological equipment of meat industry enterprises. - M.: Kolos, 552.
Kolomeitsev, V. A., Komarov, V. V. (2006). Microwave units with uniform volumetric heating. Part 2. - Saratov: Saratov State Technical University, 233.
Kopusov, V. N. (2001). On the issue of multi- magnetron equipment development for modern technologies. Microwave equipment and telecommunication technolo-gies. - Sevastopol: Weber, 652–653.
Kovalchuk, I. Yu. (2003). The changes of rabbit fur semifinished product properties painted with acid dyes. Thesis for the degree of technical science candidate. - M.: ANO VPO Tsentrosoyuz RF “Russian University of Cooperation”, 150.
Lin, V. V. (2006). Leather and fur processing. - M.: Adelant, 384. Novikova, G. V., Belova, M. V. Belov, A. A.
Mikhai-lova, O. V. Kutorkina, N. A. & Lavrentieva, T. N. (2015). RF patent No. 2591074, IPC. Wool drying unit in the electromagnetic field of ultra-high frequency. The applicant and the patent owner ANOVO "ATU" (RU). - No. 2015102545; Appl. 01/29/2015. Bul. № 19 dated on 07/10/2016. 12 p.
Novikova, G. V., Belova, M. V., Belov, A. A., Ershova, I. G., & Poruchikov, D. V., (2015). The methods of product heat treatment process modification by electromagnetic radiation Vol . 7 Núm . 17 /Noviembre - diciembre 2018/ 640 640 energy. International Scientific and Technical Conference "In-novations in Agriculture." Moscow: FSECI VIESH, 5(14), 17-21.
Semenov, A. E. (2008). Microwave heating devices of resonator type with adjustable supply of electromagnetic power. Thesis for the degree of technical science candidate. - Saratov: Saratov State Technical University, 181.
Shamin, E. A., & Belova, M. V. (2017). The analysis of fluff restraint power decrease possi- bility in a rabbit carcass by UFEF exposure. Proceedings of the international scientific- practical conference "Innovative trends of AIC energy sector develop-ment" - Izhevsk: Izhevsk State Agricultural Academy, 89–92.
Shamin, E. A., Ziganshin, B. G., Novikova, G. V., & Sharonova, T. V. (2017). The analysis of the device operating conditions for the separation of fur from rabbit skins. NGIEI Bulletin. - Knyaginino: NIEEI, 8 (75), 41–49.
Strekalov, A. V., Strekalov, Yu. A. (2014). Electromagnetic fields and waves. - M.: RIOR: INFRA-M, 375.
Tinaev, N. I. (2004). Rabbit breeding. - M.: Company Delta. - M, 48 s, ISBN 5-94107-227-9.
Tsygankov, A. V. (2003). Electrotechnological microwave units of dielectric material uni-form heating on the waveguides of complex sections. Thesis for the degree of technical science candidate. - Saratov: Saratov State Technical University, 206.
Zhdankin, G. V., Novikova, G. V., & Ziganshin, B. G. (2017). The development of working chambers for microwave units for the heat treatment of non-food wastes from meat production. Bulletin of Izhevsk State Agricultural Academy. - Izhevsk: Izhevsk State Agricultural Academy, 1 (50), 61–69.
Zhdankin, G. V., Ziganshin, B. G., Belova, M. V. (2016). The development of multi-module microwave ultra-frequency unit for the heat treatment of raw materials of animal origin. Bulletin of Kazan SAU. - Kazan: KSAU, 4 (42), 79–83.
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