Operation energy active guard with heat pumps in the energy supply system

Authors

  • L. V. Nakashydze PhD, senior scientific researcher,, Ukraine
  • V. A. Gabrinetc д-р техн. наук, профессор, Ukraine

Keywords:

energy supply systems, alternative energy sources, circuit solutions options, criteria, decomposition, performance assessment

Abstract

Abstract. The aim is to determine the characteristics of co-operation power-protections and heat pumps energy systems in all others use alternative sources of energy. In the design of innovative energy systems considered methodological approach, which has consistently carried out a comparative analysis of options for the implementation of such systems. The result of determining the principles of construction of power circuit design of power-fencing and heat pumps. Scientific innovation is that under the proposed methodological approach is proposed to consider the functional relationships between the structural elements of the power supply. The practical importance lies in determining the criteria of rational combination of component elements of the system power supply. This system will optimize energy structure, increase the efficiency of structural elements of the system.

Author Biographies

L. V. Nakashydze, PhD, senior scientific researcher,

doctor of techn. sciences, professor *ORCID 0000-0003-3990-6718, Dnipropetrovs'k national university named after Oles Gonchar, Gagarina ave. 72, Dnipropetrovs'k, Ukraine

V. A. Gabrinetc, д-р техн. наук, профессор

ORCID 0000-0002-6115-7162, Dnipropetrovs'k national university of railway transport named after V. Lazaryan, Lazaryana str. 2, Dnipropetrovs'k, Ukraine

References

Ganzha A.N., Bratuta E.G., Kruglyakova O.V., Podkopay V.N. and Chubarova V.V. Analiz effektivnosti teplonasosnoy sistemy utilizatsii teploty ot kompressornoy ustanovki s uchetom vzaimnogo vliyaniya ekspluatatsionnykh kharakteristik oborudovaniya [Analysis of the efficiency of the heat pump system heat recovery from the compressor unit, taking into account the mutual influence of system performance]. Energosberezheniye. Energetika. Energoaudit [Energy saving. Energetics. Energy audit]. 2013. no 5 (111). pp. 14-20. (in Russian).

Patent na korisnu model Ukraina № 201014333, MPK F24J2/50, E04B1/76, Energoaktivne ogorodzhennya / V.O. Gabrinets, G.I. ZarIvnyak, S.O. Mitrohov, L.V. Nakashidze, vId 25.07.2011, byul. 14.

Gabrinets V.O., Markov V.L., Mitrohov S.O., ZarIvnyak V.I., Nakashidze L.V. (2010) Osoblivosti pobudovi energoaktivnih ogorodzhen u skladi sistem energozabezpechennya na osnovi VDE. Vidnovlyuvana energetika. 3. – K.: IVE NAN Ukraini. pp.31-34.

Gabrinets V.A., Nakashidze L.V., Zarivnyak G.I., Markov V.L., Mitrohov S.A. (2009) Energoaktivnyie ograzhdeniya v sostave sistem teplosnabzheniya, ispolzuyuschih netraditsionnyie vozobnovlyaemyie istochniki energii. Zbirnik naukovih prats «Perspektivni zadachi inzhenernoi nauki». D.: GAUDEAMUS. pp.39-44.

Gabrinets V.A., Nakashidze L.V. (2013) Osnovnyie elementyi innovatsionnoy kompleksnoy sistemyi klimatizatsii, s ispolzovaniem energii alternativnyih istochnikov. Stroitelstvo, materialovedenie, mashinostroenie. Seriya: Sozdanie vyisokotehnologicheskih ekokompleksov v Ukraine na osnove kontseptsii sbalansirovannogo (ustoychivogo) razvitiya: Sb. nauchn. trudov. 68. D.: GVUZPGASA. pp.240-243.

Schepelmann P., Stock M., Koska T. etc. A Green New Deal for Europe: Towards green modernization in the face of crisis. Green European Foundation. 2009, 87 p. Available at: http://cz.boell.org/sites/default/files/study__green_new_deal_for_europe_en.pdf

Friend G. The Truth about Green Business. New Jersey: Pearson Education, 2009, 240 p.

Ganzha N.G. and Khimenko A.V. Teplovoye akkumulirovaniye kak sposob povysheniya energeticheskoy effektivnosti sistem teplosnabzheniya [Thermal accumulation as a way to improve the energy efficiency of heating systems]. Energosberezheniye. Energetika. Energoaudit [Energy saving. Energetics. Energy audit]. 2012. no 3(97). pp. 16-21.

Nemirovskiy I. A.. Energoeffektivnost sistem teplosnabzheniya [Energy efficiency of heating systems]. Energosberezheniye. Energetika. Energoaudit [Energy saving. Energetics. Energy audit]. 2012. no 8(102). pp. 25-30. (in Russsian).

Unaspekov B.A., Sabdenov K.O., Kokarev M.Zh., Koloberdin M.V. and Igembaev B.A. Energosberezhenie v teplovyih punktah zhilyih i obschestvennyih zdaniy. Ch. 1. Obschaya model teplovogo punkta [Energy saving in the thermal areas of residential and public buildings. Part 1. General model of the substation]. Izvestiya Tomskogo politehnicheskogo universiteta [News of The Tomsk Polytechnic University]. 2012. vol. 321, no 4. pp.31-37. (in Russian).

Nuβbicher J. Mangold D. Solar assisted heating system with seasonal duch heat store in Neckarsuim-Amorbach. EuroSun. 2004, no. 14. pp.58-80.

Pahud Daniel. The design of a borehole thermal energy storage requires dynamic system simulation, especially for a system without heat pump. SUPSI-DCT-LEE Laboratoria di Energia, Ecologia ed Economia. 12/05/2002, pp. 66–81.

Spanish solar project inaugurated Power Eng. Int. 2003. no 2. p.11.

Published

2016-07-05

Issue

Section

Innovative lifecycle technology of housing and civil, industrial and transportation purposes