RESEARCH OF EFFECTIVENESS OF A COMBINED COGENERATION SYSTEM USING HEAT FROM A GAS-PISTON MODULE
- Details
- Parent Category: Geo-Technical Mechanics, 2014
- Category: Geo-Technical Mechanics, 2014, Issue 117
UDC [620.92.004.68:536.662].002.5
Authors:
Dyakun I.L., M. S. (Tech.) (IGTM NAS of Ukraine)
Kozar I.Yu., M. S. (Tech.) (IGTM NAS of Ukraine)
Kondratyuk T.D., M. S. (Tech.) (IGTM NAS of Ukraine)
Abstract.
For mining and energy complexes, utilization of waste (excess) heat with generating more electric power on the basis of the combined cogeneration system is very promising. This article presents a principal scheme of a cogeneration system which uses heat from an energy module, and in which design of the energy module is based on combination of gas-piston installation, boilers and improved hydro-steam turbine. In this variant, electric power is generated by two objects – the gas-piston installation and the hydro-steam turbine - providing additional profit for the energetic complex. The research showed high effectiveness of the scheme, one of the advantages of which is that heat is discharged from the gas-piston installation for heating water at entrance to the boiler, as such design reduces consumption of conventional fuel by almost 4 times to produce the same volume of hot water. This is obviously a cost-effective measure.
Keywords:
cogeneration, power module, gas-piston installation, hydro-steam turbine.
References:
1. Bulat, A.F. and Chemeris, I.F. (2000),” Technical and economic aspects of processing low-grade coal and coalbed methane in thermal power systems based on coal mines”, geologiya i geokhimiya goryuchikh kopalyn, vol. 4, pp. 88 – 94.
2. Fedorov, S.D., Oblakevich, S.V. and Radyuk, O.P. (2006), “The problem of coal mine methane utilization in cogeneration plants and ways to solve them on the example of mine A.F. Zasyad'ko”, Promelektro, vol. 5, pp.35 – 39.
3. Balasanyan, G.A (2006), “Evaluating the effectiveness of integrated cogeneration systems”, Ekotekhnologii i resursosberezhenie, vol. 3, pp. 9 – 12.
4. Bulat, A.F., Perepelitsa, V.G. and Chemeris, I.F. (2001), “Creating a clean and highly efficient power facilities on the basis of unprofitable coal mines”, dopovidi Natsionalnoi akademii nauk Ukrainy, vol. 1, pp.111 – 117.
5. Bulat, A.F. and Chemeris, I.F (2006), Nauchno-tehnicheskie osnovyi sozdaniya shahtnyh kogeneratsionnyh energeticheskikh kompleksov [Scientific and technical basis for mine cogeneration energy complexes], Naukova Dumka, Kiev, Ukraine.
6. Boyce, M.P. (2002), Handbook for cogeneration and combined cycle power plants, ASME Press, New York, USA.
7. Gilewski, J. and Montusiewicz ,J. (2014), “combined systems of energy generation – a characterisation and classification”, Advances in Science and Technology Research Journal, vol. 8, no. 23, pp. 53–61.
8. Kozar, I.Yu. (2012), “Prospects for the use of hydro-turbine for the utilization of low-grade heat energy facilities mine”, prikladni problemy aerogidromekhaniki ta teplomasoperenosu: materialy IV mizhnarod. nauk. konf. [Applied problems of aero hydro mechanics and thermal mass: intl Materials IV. sciences. conf.,], Dnepropetrovsk, Ukraine, 1-3 november 2012., pp. 188 – 191.
9. Bulat, A.F., Radyuk, M.V., Oksen, Yu.I. and Chemeris, I.F. (2009), Institute of Geotechnical Mechanics under the National Academy of Science of Ukraine (IGTM NASU), kogeneratsiyna sistema z vikoristannyam tepla energetichnykh obektiv [The cogeneration system using heat energy facilities], State Register of Patent of Ukraine, Kiev, UA, Pat. № 43631.
10. Bulat, A.F., Komleva, I.Yu. and Chemeris, I.F. (2010), “Improved hydro-turbine for the utilization of waste heat power facilities mine”, Kompressornoe i energeticheskoe mashinostroenie, vol. 2 (20), pp. 25 – 28.
11. Chemeris, I.F., Komleva, I.Y. and Dyakun, I.L. (2011), “The Utilization of mine methane on the base of gas engine setting with a steam-water turbine”, Geotekhnicheskaya Mekhanika [Geo-Technical Mechan-ics], no. 94, pp. 239-248.
About the authors:
Dyakun Inna Leonidovna, Master of Science, junior Researcher in Department of Mine Energy Complexes, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Science of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Kozar Iryna Yurevna, Master of Science, Engineer in Department of Mine Energy Complexes, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .
Kondratuk Tatiana Dmitrivna, Master of Science, Engineer in Department of Mine Energy Complexes, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Sciences of Ukraine (IGTM, NASU), Dnepropetrovsk, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it. .