Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschungBegutachtung

Abstract

Power generation in irrigation channels and at other low head locations becomes more interesting due to the still increasing demand for green energy. For this kind of application a low-cost standardised turbine concept was developed with a high specific speed Kaplan pit-type turbine with a belt drive as core component. The 3-blade runner design was tested during a model test according to IEC 60193 [1]. The optimisation of the runner was realised by means of CFD with a special focus on the unfavourably high susceptibility of cavitation and pressure pulsation for such a high specific speed unit.
Originalspracheenglisch
Titel20. Internationales Seminar Wasserkraftanlagen
Untertitel40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte
Herausgeber (Verlag)Technische Universität Wien
Seiten511-522
Seitenumfang12
ISBN (Print)978-3-9504338-1-4
PublikationsstatusVeröffentlicht - 14 Nov 2018
Veranstaltung20. Internationales Seminar Wasserkraftanlagen - Wien, Österreich
Dauer: 14 Nov 201816 Nov 2018

Konferenz

Konferenz20. Internationales Seminar Wasserkraftanlagen
KurztitelVienna Hydro 2018
LandÖsterreich
OrtWien
Zeitraum14/11/1816/11/18

Fingerprint

Turbines
Belt drives
Irrigation
Cavitation
Power generation
Computational fluid dynamics
Costs

Fields of Expertise

  • Sustainable Systems

Treatment code (Nähere Zuordnung)

  • Experimental
  • Application
  • Basic - Fundamental (Grundlagenforschung)

Dies zitieren

Benigni, H., Schiffer-Rosenberger, J., Bodner, C., Leithner, S., Jaberg, H., & Troyer, S. (2018). Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification. in 20. Internationales Seminar Wasserkraftanlagen: 40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte (S. 511-522). Technische Universität Wien.

Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification. / Benigni, Helmut; Schiffer-Rosenberger, Jürgen; Bodner, Christian; Leithner, Stefan; Jaberg, Helmut; Troyer, Stefan.

20. Internationales Seminar Wasserkraftanlagen: 40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte. Technische Universität Wien, 2018. S. 511-522.

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in einem KonferenzbandForschungBegutachtung

Benigni, H, Schiffer-Rosenberger, J, Bodner, C, Leithner, S, Jaberg, H & Troyer, S 2018, Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification. in 20. Internationales Seminar Wasserkraftanlagen: 40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte. Technische Universität Wien, S. 511-522, Wien, Österreich, 14/11/18.
Benigni H, Schiffer-Rosenberger J, Bodner C, Leithner S, Jaberg H, Troyer S. Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification. in 20. Internationales Seminar Wasserkraftanlagen: 40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte. Technische Universität Wien. 2018. S. 511-522
Benigni, Helmut ; Schiffer-Rosenberger, Jürgen ; Bodner, Christian ; Leithner, Stefan ; Jaberg, Helmut ; Troyer, Stefan. / Development of a high specific speed Kaplan pit-type turbine - numerical and experimental verification. 20. Internationales Seminar Wasserkraftanlagen: 40 Jahre Engagement zwischen Industrie und Wissenschaft - eine Erfolgsgeschichte. Technische Universität Wien, 2018. S. 511-522
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abstract = "Power generation in irrigation channels and at other low head locations becomes more interesting due to the still increasing demand for green energy. For this kind of application a low-cost standardised turbine concept was developed with a high specific speed Kaplan pit-type turbine with a belt drive as core component. The 3-blade runner design was tested during a model test according to IEC 60193 [1]. The optimisation of the runner was realised by means of CFD with a special focus on the unfavourably high susceptibility of cavitation and pressure pulsation for such a high specific speed unit.",
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