Statement of a problem of building thermal condition optimal control at dual heating system

UDC 681.513.5

Mikhail Mikhailovich Tverskoy, Doctor of Science (Engineering), Professor, Honored Worker of Science and Technology of the Russian Federation, Head of Mechanical Assembly Production Automation Department, South Ural State University, Chelyabinsk, Russian Federation, julisus@mail.ru

Dmitry Vladimirovich Rumyantsev, post-graduate student of Mechanical Assembly Production Automation Department, South Ural State University, Chelyabinsk, Russian Federation, dimfirst@gmail.com

Abstract

The principle of thermal condition control of a building with air and radiator sources in the heating system is considered in the article. The problem of building thermal condition optimal control, in terms of given criteria and appropriate boundary conditions, is stated in the article.

Full text

Keywords

building thermal condition, dual heating system, optimal control

References

1. Otoplenie i ventilyaciya: ucheb. dlya vuzov. V 2 ch. CH. 1: Otoplenie / P.H. Kamenev, A.H. Skanavi, V.H. Bogoslovskij i dr. – 3-e izd., pererab. I dop. – M.: Strojizdat, 1975. – 483 s.
2. GOST R ISO 7730–2009. EHrgonomika termal'noj sredy. Analiticheskoe opredelenie i interpertaciya komfortnosti teplovogo rezhima s ispol'zovaniem rascheta pokazatelej PMV i PPD i kriteriev lokal'nogo teplovogo komforta. – M.: Standartinform, 2011. – 48 s.
3. ISO 7730:2005(E). Ergonomics of the thermal environment – Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria. – Switzerland, 2005. – 60 s.
4. Tabunshchikov, YU.A. EHksperimental'noe issledovanie optimal'nogo upravleniya raskhodom ehnergii / YU.A. Tabunshchikov, M.M. Brodach // AVOK. – 2006. – № 1. – S. 32–36.
5. Brodach, M.M. Otoplenie soborov – praktika al'ternativnyh reshenij / M.M. Brodach // «AVOK». – 2004. – № 2. – http://www.abok.ru/for_spec/articles.php?nid=2342
6. Grudinin, V.S. Adaptivnaya komp'yuternaya sistema upravleniya mikroklimatom / V.S. Grudinin // Agrarnaya nauka Evro-Severo-Vostoka. – 2007. – № 9. – S. 137–142.
7. Malyavina, E.G. Teplovaya nagruzka na sistemy luchistogo otopleniya. Sravnitel'nyj analiz / E.G. Malyavina // AVOK. – 2009. – № 7. – S. 48–58.
8. SNiP 41-01–2003. Otoplenie, ventilyaciya i kondicionirovanie. – M.: Gosstroj Rossii: GU CPP, 2008. – 58 s.
9. Panferov, V.I. Ob ehkonomii ehnergii pri optimal'nom upravlenii rezhimom preryvistogo otopleniya / V.I. Panferov, E.YU. Anisimova // Inzhenernye sistemy. – 2009. – № 5. – S. 32–35.
10. Panferov, V.I. Ob optimal'nom upravlenii otopleniem zdanij kak processom s raspredelennymi parametrami / V.I. Panferov, E.YU. Anisimova // Vestnik YUUrGU. Seriya «Komp'yuternye tekhnologii, upravlenie, radioehlektronika». – 2009. – Vyp. 9. – № 3 (136). – S. 24–28.
11. Angela, S.K. HAM-Tools International Building Physics Toolbox Block documentation Report: R-02:6 / S.K. Angela. – Sweden: Department of Building Physics Chalmers Institute of Technology, 2008. – 58 s.
12. Nagornaya, A.N. Matematicheskoe modelirovanie i issledovanie nestacionarnogo teplovogo rezhima zdanij: dis. … kand. tekhn. nauk / A. N. Nagornaya. – CHelyabinsk, 2008. – 150 s.
13. GOST 30494–96. Zdaniya zhilye i obshchestvennye. Parametry mikroklimata v pomeshcheniyah. – M.: Gosstroj Rossii: GU CPP, 1999. – 7 s.

Source

Bulletin of the South Ural State University. Ser. Computer Technologies, Automatic Control, Radio Electronics, 2012, iss. 16, no. 23 (282), pp. 16-20. (in Russ.) (The main)