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CONSTRUCTION OF ENERGY-SAVING COOLING AND THERMOELECTRIC REGENERATIVE SYSTEMS BASED ON PELTIER MODULES

Dmitry Surzhik, Oleg Kuzichkin, И. Л. Константинов, Gleb Vasilyev

First published: 2020-09-20https://doi.org/10.5593/sgem2020/4.1/s17.005View metrics

Abstract

Currently, the growth of agricultural production in Russia is closely related to the pace of scientific and technological progress in the agro-industrial complex, which is largely determined by its level of energy supply. The most significant consumers of energy in the agro-industrial complex are livestock, poultry complexes and enterprises associated with food storage. In animal husbandry, energy costs are the second largest after feed, with more than 30% of the energy consumed in creating a production microclimate. Of particular importance is the task of creating a microclimate for storing finished products. The article is devoted to the creation of complex energy-saving cool and thermoelectric regeneration systems based on the use of innovative technical solutions and the use of new ceramic materials with improved electrotechnical characteristics for the agro-industrial complex. It is supposed to use thermoelectric modules as the basis for building of systems, the principle of operation of which is based on the Peltier effect. Currently, the possibility of cooling to a temperature significantly lower than the ambient temperature in combination with uniquely small dimensions determines the main advantages of thermoelectric cooling using these modules. It should be noted that the use of this approach in cooling systems makes it possible to regenerate thermal energy, what can be solved within the framework of using the same modules, only with the opposite effect. This allows to embed it in the system and sources of solar thermal energy as well. The paper considers the main aspects of building these systems. Issues of the application and design of the ceramics used were identified and considered in order to create new ceramic materials with improved electrical characteristics, as well as to solve a number of tasks in creating technological energy-saving control and monitoring subsystems.

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Publication details

Title
CONSTRUCTION OF ENERGY-SAVING COOLING AND THERMOELECTRIC REGENERATIVE SYSTEMS BASED ON PELTIER MODULES
Authors
Dmitry Surzhik, Oleg Kuzichkin, И. Л. Константинов, Gleb Vasilyev
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 20th International Multidisciplinary Scientific GeoConference Proceedings SGEM 2020, Energy and Clean Technologies
Publisher
STEF92 Technology
Year
2020
Pages
37-44
SWS Citekey
Surzhik2020173744
ISSN
1314-2704
ISBN
978-619-7603-09-5
Language
en
Publication type
Conference Paper
Keywords
agro-industrial complexenergy-saving systemsregenerative systemsceramic materialsthermoelectric modulesPeltier effect
References21

  1. Minakov I.A., Kulikov O.V., Sokolov N.I., Industry Economics APK / Under the editorship Minakov I.A - M.: Ear. - 2004. – 464 p.

  2. Ganja V.L. Fundamentals of efficient use of energy resources: theory and practice of energy saving / Minsk.: Belarusian science. - 2007. – 451 p.

  3. Danilov N.I., Shchelokov Y.M. Basics of energy saving. - Ekaterinburg.: HOU VPO UGTU-UPI. - 2006. – 564 p.

  4. Samoilov M.V., Punicic V.V. Basics of energy saving: Textbook. - M.: BGEU. - 2002. – 198p.

  5. Berezovsky N.I., Berezovsky S.N. Kostyukevich E.K. Energy saving technology: Textbook. - Minsk.: BIP-C Plus. - 2007. – 152 p.

  6. Eremkin A.I., Koroleva T.I., Danilin G.V. Economic efficiency of energy saving in heating, ventilation and air conditioning systems. - M.: Publishing house Of the Association of construction universities. - 2008. – 184 p.

  7. Andrizhievskii A.A., Volodin V.I. Energy saving and energy management: Textbook. - M.: Higher school - 2005. – 294 p.

  8. Anatychuk L.I. Thermoelements and thermoelectric devices. - Kiev - 1979. – 768 p.

  9. Zon A.P. Determining the conditions for obtaining the maximum energy efficiency of the Peltier element / News of Southwestern state University. - 2016, №3(20). - Pp. 153-158.

  10. Ohrem V.G. New Peltier thermoelectric coolers for deep cooling / Applied physics. - № 4. -2006. - Pp. 121-127.

  11. Gorobets N.V., Ohrem V.G. Peltier thermoelectric cooler with additional conductive element / Applied physics. - № 4. - 2007. - Pp. 124-127.

  12. Ohrem V.G. About the possibility of creating refrigerators based on Peltier and Bridgman volumetric effects/ Advances in applied physics. - 2015, Vol.3, № 5. - Pp. 432-437.

  13. Ohrem V.G. Anisotropic thermoelectric cooler based on the transverse Peltier effect / Advances in applied physics.- 2015, Vol. 3, № 1. - Pp. 16-20.

  14. OhremV.G. Thermoelectric cooling using the Peltier effect / Applied physics. - № 5. - 2011. - Pp. 123-126.

  15. OhremV.G. Cooling depth of a thermoelectric cooling element based on the combined action of Peltier and Thomson effects / Advances in applied physics. - 2014, Vol.2, № 3. - Pp. 208-211.

  16. Gnusin P.I., Study of the Peltier element efficiency in various operating modes / Video science. - №1(1). - 2016. – Pp. 20-27.

  17. Vasilyev G.S., Kuzichkin O.R., Grecheneva A.V., Dorofeev N.V., Surzhik D.I. Analysis of the combined transfer functions for geotechnical control / International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM. – 2018. - 18(1.2), - Pp. 43-50.

  18. Vasilyev G.S., Kuzichkin O.R., Grecheneva A.V., Dorofeev N.V., Eremenko V.T. The method of the calibration of the geoelectric systems of the geodynamic control / International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM. – 2018. - 18(1.1), - Pp. 1011-1018.

  19. Grecheneva A.V., Kuzichkin O.R., Bykov A.A., Dorofeev N.V., Romanov R.V., Information and analytical support for the processing of heterogeneous data of geotechnical monitoring / International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM. – 2017. - 17(12), - Pp. 453-460.

  20. Bykov A.A., Kuzichkin O.R., Dorofeev N.V., Koskin A. Information-hardware Support of Systems of the Automated Electromagnetic Monitoring of Geodynamic Objects / Procedia Computer Science. – 2017. - 103, Pp. 253-259.

  21. Evdulov O.V. Development of devices and systems for cooling based on high-current thermoelectric energy converters, Dissertation for the degree of Doctor of Technical Sciences, Makhachkala. – 2019. - 330 p.

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