Energy costs savings by use of micro - CHP units in domestic households

• Autorzy: Błasiński T. , Kaźmierczak A. , Krakowian K. , Cienciała M.
• Języki publikacji: EN

Abstrakty

EN

Prices of thermal and electric energy delivered to households are constantly increasing, and it will probably not change over the next few years. Due to this fact, people had been forced to find different ways to reduce costs of buying energy. The paper contains description of the most popular systems which are already in use from many years and some innovative systems which are implemented now, or which may be probably installed in nearly future – for example: internal combustion engines, Stirling engines, proton exchange membrane fuel cells, gas turbines, engines with Rankine cycle, etc. Each of mentioned above appliances is necessary to create CHP system which advantages and disadvantages are also described. In this publication, the most promising units have been compared to show their performance, flexibility, profitability and range of using ability. In this paper, approximate money and energy savings that may occur by using modern solutions compared to traditional systems are also shown. As always, during design and development of this kind of devices, there are a lot of problems related to various issues. Main problems and potential solutions have been also presented in this article. In summary further research, directions are suggested due to improve performance of this kind of systems.

Słowa kluczowe

EN

micro cogeneration; CHP issues; Stirling engines; cost savings; primary energy savings

• Wydawca: Łukasiewicz Research Network - Institute of Aviation ; European Science Society of Powertrain and Transport KONES Poland ; Wydawnictwo Instytutu Technicznego Wojsk Lotniczych
• Czasopismo: Journal of KONES
• Rocznik: 2013
• Tom: Vol. 20, No. 3
• Strony: 41--46
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Błasiński T.

• Technical University of Wroclaw Department of Mechanical Engineering Łukasiewicza Street 7/9, 50-371 Wroclaw, Poland tel.: +48 71 3477918, fax: +48 71 3477918

autor

Kaźmierczak A.

• Technical University of Wroclaw Department of Mechanical Engineering Łukasiewicza Street 7/9, 50-371 Wroclaw, Poland tel.: +48 71 3477918, fax: +48 71 3477918

autor

Krakowian K.

• Technical University of Wroclaw Department of Mechanical Engineering Łukasiewicza Street 7/9, 50-371 Wroclaw, Poland tel.: +48 71 3477918, fax: +48 71 3477918

autor

Cienciała M.

• Technical University of Wroclaw Department of Mechanical Engineering Łukasiewicza Street 7/9, 50-371 Wroclaw, Poland tel.: +48 71 3477918, fax: +48 71 3477918

Bibliografia

• [1] Raport GUS, Efektywność wykorzystania energii w latach 1990-2009.
• [2] Aktualizacja Prognozy zapotrzebowania na paliwa i energię do roku 2030, Agencja Rynku Energii.
• [3] http://www.tanie-ogrzewanie.pl/poradniki-abc/piece-kondensacyjne-policz-zanim-zaiwestujesz-098.html
• [4] http://www.muratorplus.pl/technika/ogrzewanie/jeszcze-bardziej-oszczedny-kociokondensacyjny_63284.html
• [5] Holluk, M., Aktualny stan mikrokogeneracji domowej, 2012.
• [6] Roselli, C., Sassoa, M., Sibilio, S., Tzscheutschlerc, P., Experimental analysis of microcogenerators based on different prime movers, Energy and Buildings 43, pp. 796-804, 2011.
• [7] Harrison, J., Redford, S., Domestic CHP What are the potential benefits?, A report to the Energy Saving Trust by EA Technology Limited, Capenhurst, Chester CH1 6ES, June 2001.
• [8] Zmuda, A., Aktualny stan rozwoju systemów kogeneracyjnych z silnikami Stirlinga, Elektro.info, 6, 2011.
• [9] Hinnells, M., Combined heat and power in industry and buildings, Energy Policy 36, pp. 4522-4526, 2008.
• [10] Possidente, R., Roselli, C., Sasso, M., Sibilio, S., Experimental analysis of microcogeneration units based on reciprocating internal combustion engine, Energy and Buildings 38, pp. 1417-1422, 2006.
• [11] Barbieri, E. S., Spina, P. R., Venturini, M., Analysis of innovative micro-CHP systems to meet household energy demands, Applied Energy 97, pp. 723-733, 2012.
• [12] Bianchi, M., De Pascale, A., Melino, F., Performance analysis of an integrated CHP system with thermal and Electric Energy Storage for residential application, Applied Energy, 2013.
• [13] Kuhn, V., Klemes, J., Bulatov, I., Overview of selected technologies, products and field test results, Applied Thermal Engineering 28, pp. 2039-2048, 2008.
• [14] Micro CHP with Stirling engine, http://www.one-stopshop.org/sites/default/files/FORM_21_25_Micro_CHP_with_Stirling_engine.pdf dostępne na dzień 22.06.2013.
• [15] De Paepe, M., D’Herdt, P., Mertens, D., M-CHP systems for residential applications, Energy Conversion and Management 47, pp. 3435-3446, 2006.
• [16] Houwing, M., Thesis, PhD., Smart Heat and Power. Utilizing the Flexibility of Micro Cogeneration, Netherlands 2010.
• [17] Simader, G. R., Krawinkler, R., Trnka, G., Micro CHP systems: state-of-the-art, Austrian Energy Agency, Vienna 2006.
• [18] Klobut, K., Ikäheimo, J., Ihonen, J., Micro-CHP technologies for distributed generation, International Energy Agency Demand-Side Management Programme.
• [19] Vitotwin 300-W – energia elektryczna i cieplna dla domu z jednego urządzenia, artykuł techniczny, InstalReporter, 2013.