Theoretical studies of the specialized system of automated control and management of electrically heated floor

Authors

  • Микола Анастасійович Романченко Kharkiv Petro Vasylenko National Technical University of Agriculture Str. Engels, 19, Kharkiv, Ukraine, 61012, Ukraine
  • Анатолій Павлович Слесаренко Senior researcher of IPMash NAS of Ukraine Str. Dm. Pozharsky, 2/10, Kharkiv, Ukraine, 61046, Ukraine

DOI:

https://doi.org/10.15587/1729-4061.2013.19427

Keywords:

energy efficiency, environmental compatibility, microclimate, electric-heat-accumulation, automation, economic efficiency

Abstract

The results of the study of the system of automated control and management of the operating mode of specialized electric heaters of the tubular type, which are the part of the power heat-generating modules of electrically heated floor in technologically active areas of livestock production facilities of various functional purposes, are presented. The automated control system for the multilayer electric-heat-accumulating heating system of production livestock facilities was studied, which operates under the “bottom-up” scheme and allows more accurate and energy efficient observance of the set temperature mode of the electrically heated floor surface, significant reduction of the expenditure of energy carriers and fodder resources in the processes of livestock production, reduction of the negative impact of livestock production waste on the environment and improvement of production standards in the industry. The proposed automated electrotechnical complex for the use in the systems of agricultural production livestock facilities with electrically heated floors allows more efficient use of energy, fodder and investment resources in the manufacture of high-quality competitive livestock products, improvement of production standards in the industry and reduction of the negative impact of production waste on the environment. The proposed automated system of MEHHS in comparison with existing heating systems of AIC facilities allows efficient operation under the “centerperiphery” scheme in technologically safe and sustainable mode that in turn allows real-time remote control of thermal parameters of microclimate of the n-number of PLF in the large area from the single center using modern communication means

Author Biographies

Микола Анастасійович Романченко, Kharkiv Petro Vasylenko National Technical University of Agriculture Str. Engels, 19, Kharkiv, Ukraine, 61012

Professor of department "Integrated electric technologies and processes"

Анатолій Павлович Слесаренко, Senior researcher of IPMash NAS of Ukraine Str. Dm. Pozharsky, 2/10, Kharkiv, Ukraine, 61046

Doctor of Physical and Mathematical Sciences, professor

Laureate of the State Prize of Ukraine

References

  1. Круковский П. Г. Тепловые режимы полов различных конструкций с электрокабельными системами обогрева [Текст] / Круковский П. Г., Тимченко Н. П., Судак О. Ю, // Промышл. теплотехн, 2002. – Т. 24, №1. – С. 10-16.
  2. Пат. 63667А UA, МКІ А 01 К 1/015. Установка для забезпечення теплового режиму виробничих приміщень і споруд / Романченко М. А., Слесаренко А. П., Сорока О. С., Румянцев О. О. (UA). – №2003054650; Заявл. 22.05.2003; Опубл. 15.01.2004; Бюл. №1. – 2
  3. Engineering manual of automatic control for commercial buildings [Текст] / Honeywell Inc. – 1997. – C. 502.
  4. Романченко, М. А. Енергозберігаючі електротехнології забезпечення стандартів теплового режиму виробничих споруд АПК з електрообігрівними підлогами [Текст] / Романченко М. А., Мазоренко Д. І., Слесаренко А. П., Сорока О. С. // Електрифік. та автоматиз. сільського господарства. – 2006, №2. – С. 82-92.
  5. Табунщиков Ю. А. Энергоэффективные здания: мировой и отечес-твенный опыт [Текст] / Табунщиков Ю.А. // Энергия. – 2004, №10. – С. 20-28; № 11. – С. 26-29;
  6. Popescu D. A new solution for automatic control of heating systems in buildings based on measuring heat transfer through outer surfaces [Текст] / D. Popescu // ACMOS'08 Proc. of the 10th WSEAS Int. Conf. on Automatic Control, Modelling & Simulation. – 2008. – P. 206-208.
  7. Розинський Д. Й. Електрична кабельна система опалення в тепло-акумуляційному режимі (ЕКСО-ТА) житлових сільськогосподарських будинків [Текст] / Розинський Д. Й. // Будівництво України, 2002, №5. – С. 32-35.
  8. Dryden I .G. C. The Efficient Use of Energy [Текст] / I. G. C. Dryden // 2nd Ed., Butterworth Scientific, Oxford. – 1982.
  9. Davies E. J. Conduction and Induction Heating [Текст] / E. J. Davies // IEE Power Engineering Series II, Peter Peregrinus Ltd., London. – 1990.
  10. Saving Energy with Electric Resistance Heating [Текст] / DOE/GO-10097-381, FS 230, October. – 1997.
  11. Domestic Heating Compliance Guide [Текст] / Domestic Heating Compliance Guide 2-nd edition. – 2008. – C. 72.
  12. Building automation – impact on energy efficiency. Application per EN 15232:2012 eu.bac product certification [Текст] / Siemens Switzerland Ltd. – 2012. – C 132.
  13. Krukovskij, P. G. Timchenko, N. P., Sudak, O. Ju (2002). Teplovye rezhimy polov razlichnyh konstrukcij s jelektrokabel'nymi sistemami obogreva. Promyshl. teplotehn, 24(1), 10 - 16.
  14. Romanchenko, M. A., Slesarenko, A. P., Soroka, O. S., Rumjancev, O. O. Pat. 63667A UA, MKІ A 01 K 1/015. Ustanovka dlja zabezpechennja teplovogo rezhimu virobnichih primіshhen' і sporud (UA). №2003054650; issued 22.05.2003; Opubl. 15.01.2004; Bjul. №1, 2
  15. Engineering manual of automatic control for commercial buildings (1997). Honeywell Inc, 502.
  16. Romanchenko, M. A. Mazorenko, D. І., Slesarenko, A. P., Soroka, O. S. (2006). Energozberіgajuchі elektrotehnologії zabezpechennja standartіv teplovogo rezhimu virobnichih sporud APK z elektroobіgrіvnimi pіdlogami. Elektrifіk. ta avtomatiz. sіl's'kogo gospodarstva, 2, 82 - 92.
  17. Tabunshhikov Ju. A. (2004). Jenergojeffektivnye zdanija: mirovoj i oteches-tvennyj opyt. Jenergija, 10, 20-28.
  18. Popescu, D. (2008). A new solution for automatic control of heating systems in buildings based on measuring heat transfer through outer surfaces. ACMOS'08 Proc. of the 10th WSEAS Int. Conf. on Automatic Control, Modelling & Simulation, 206 - 208.
  19. Rozins'kij, D. J. (2002). Elektrichna kabel'na sistema opalennja v teplo-akumuljacіjnomu rezhimі (EKSO-TA) zhitlovih sіl's'kogospodars'kih budinkіv. Budіvnictvo Ukraїni, 5, 32 - 35.
  20. Dryden, I .G. C. (1982). The Efficient Use of Energy. 2nd Ed., Butterworth Scientific, Oxford.
  21. Davies, E. J. (1990). Conduction and Induction Heating. IEE Power Engineering Series II, Peter Peregrinus Ltd., London.
  22. Saving Energy with Electric Resistance Heating (1997). DOE/GO-10097-381, FS 230, October.
  23. Domestic Heating Compliance Guide (2008). Domestic Heating Compliance Guide 2-nd edition, 72.
  24. Building automation – impact on energy efficiency. Application per EN 15232:2012 eu.bac product certification (2012). Siemens Switzerland Ltd, 132.

Downloads

Published

2013-12-13

How to Cite

Романченко, М. А., & Слесаренко, А. П. (2013). Theoretical studies of the specialized system of automated control and management of electrically heated floor. Eastern-European Journal of Enterprise Technologies, 6(2(66), 46–52. https://doi.org/10.15587/1729-4061.2013.19427

Issue

Vol. 6 No. 2(66) (2013): Information technology. Industry control systems

Section

Industry control systems

License

Copyright (c) 2014 Микола Анастасійович Романченко, Анатолій Павлович Слесаренко

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.

A license agreement is a document in which the author warrants that he/she owns all copyright for the work (manuscript, article, etc.).
The authors, signing the License Agreement with TECHNOLOGY CENTER PC, have all rights to the further use of their work, provided that they link to our edition in which the work was published.
According to the terms of the License Agreement, the Publisher TECHNOLOGY CENTER PC does not take away your copyrights and receives permission from the authors to use and dissemination of the publication through the world's scientific resources (own electronic resources, scientometric databases, repositories, libraries, etc.).
In the absence of a signed License Agreement or in the absence of this agreement of identifiers allowing to identify the identity of the author, the editors have no right to work with the manuscript.
It is important to remember that there is another type of agreement between authors and publishers – when copyright is transferred from the authors to the publisher. In this case, the authors lose ownership of their work and may not use it in any way.