Identyfikatory
Warianty tytułu
Floating water – power plant
Języki publikacji
Abstrakty
Podano wybrane elementy teorii oraz założeń projektowych elektrowni wodnej zlokalizowanej na zakotwiczonej barce na rzece. Obliczenia podano na przykładzie konkretnej lokalizacji. Podano warianty wyposażenia elektrowni oraz sposobu przyłączenia takiej elektrowni do systemu elektroenergetycznego lub odbioru indywidualnego.
The paper presents some elements of the theory and brief foredesign of hydro-electric power station located on punt anchorage in a river. Calculation are presented for the definite power plant location. Alternative designs of the power station equipment and procedure of such a type of power station to electric power system or individual recipients connection are presented.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
277--281
Opis fizyczny
Bibliogr. 17 poz., rys., wykr.
Twórcy
autor
- Politechnika Gdańska, Katedra Energoelektroniki i Maszyn Elektrycznych, E-mail: wacław.matulewicz@pg.gda.pl, ul. Sobieskiego 7, 80-216 Gdańsk
Bibliografia
- [1] Lago L.I., Ponta F.L. Chen L., Advances and trends in hydrokinetic turbine systems, Energy for Sustainable Development, 14 (2010), 287–296.
- [2] Yuce M.I., Muratoglu A., Hydrokinetic energy conversion systems: A technology status review, Renewable and Sustainable Energy Reviews, 43 (2015), 71-82.
- [3] Khan M.J., Iqbal M.T., Quaicoe J.E., Effects of Efficiency Nonlinearity on the Overall Power Extraction: A Case Study of Hydrokinetic-Energy-Conversion Systems, IEEE Trans. on Energy Conversion, Vol. 26, No. 3, September 2011, 911-922.
- [4] Khan M.J., Bhuyan G., Iqbal M.T., Quaicoe J.E., Hydrokinetic energy conversion systems and assessment of horizontal and vertical axis turbines for river and tidal applications: A technology status review, Applied Energy, 86 (2009), 1823-1835.
- [5] Khan M.J., Iqbal M.T., Quaicoe J.E., River current energy conversion systems: Progress, prospects and challenges, Renewable and Sustainable Energy Reviews , 12 (2008) 2177–2193.
- [6] Duerr A.E.S., Dhanak R., An Assessment of the Hydrokinetic Energy Resource of the Florida Current, IEEE Journal of Oceanic Engineering, vol. 37, No. 2, April 2012.
- [7] Güney M.S., Kayguzus K., Hydrokinetic energy conversion systems: A technology status review, Renewable and Sustainable Energy Reviews, 14 (2010) 2996–3004.
- [8] Zdankus N., Punys P., Zdankus T., Conversion of lowland river flow kinetic energy, Renewable and Sustainable Energy Reviews, 38 (2014)121–130.
- [9] Vermaak H.J., Kusakana K., Koko S.P., Status of microhydrokinetic river technology in rural applications: A review of literature, Renewable and Sustainable Energy Reviews, 29 (2014) 625–633.
- [10] Barbarel l i S., G. Florio G., Amel i o M., Scornaienchi N.M., Cutrupi A., Lo Zupone G., Design procedure of an innovative turbine with rotors rotating in opposite directions for the exploitation of the tidal currents, Energy, 77 (2014), 254-264.
- [11] Romero-Gomez P., Richmond M.C., Simulating bladestrike on fish passing through marine hydrokinetic turbines, Renewable Energy, 71 (2014), 401-413.
- [12] Mesqui ta André.L.A., Mesqui ta Alexandre L.A., Palheta F.C., Vaz J.R.P., de Morai s M.V.G., Gonçalves C., A methodology for the transient behavior of horizontal axis hydrokinetic turbines, Energy Conversion and Management, 87 (2014), 1261–1268.
- [13] D ąbała K., Krzemień Z., Nowatorska mikro elektrownia rzeczna, Przegląd Elektrotechniczny, R. 85, NR 9/2009, 58–61.
- [14] Halusek V., ŠLj ivac D., Jozsa L., Exploatation of the hydrokinetic potential of rivers by combining of traditional water wheel and the Darrieus turbine, Technički vjestnik, 19, 3 (2012), 659-664.
- [15] Denny E., The efficiency of overshot and undershot waterwheels, Eur. J. Phys., 25 (2004), 193–202.
- [16] www.wasserrad-drews.de
- [17] Matulewi cz W., Maszyny elektryczne w energetyce i przemyśle. Wyd. II. Gdańsk: Wyd. Polit. Gdańskiej, 2014.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-dee3f053-cf57-4093-805f-ac5b8c6644ff