Experimental investigation of the complete characteristics of rotodynamic pumps

Erkan Ayder; Ayhan N. Ilikan; Mete Şen; Cahit Özgür; Levent Kavurmacioǧlu; Kadir Kirkkopru

doi:10.1115/FEDSM2009-78052

Experimental investigation of the complete characteristics of rotodynamic pumps

Erkan Ayder^*, Ayhan N. Ilikan, Mete Şen, Cahit Özgür, Levent Kavurmacioǧlu, Kadir Kirkkopru

^*Corresponding author for this work

Department of Mechanical Engineering

Istanbul Technical University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

10 Citations (Scopus)

Abstract

Pump failure in a pipeline system can occur for several reasons and this undesirable event causes waterhammer phenomenon. While designing a pipeline system, minimum and maximum pressures caused by waterhammer and the variation of the pressure along the pipeline with respect to time must be determined. In order to calculate the time variation of the pressure, complete characteristics of a pump is used as one of the boundary conditions. In these unsteady conditions, the pump may turn in normal or reverse directions which define eight different working zones called pump, turbine, brake and booster. Specific speed is an essential parameter which affects characteristics of pumps. In the literature, for many years there have been only three complete pump characteristics obtained with the assistance of 1960's measuring devices and techniques. Each one of those corresponds to pumps having centrifugal (n _sq=35), mixed flow n_sq=147) or axial impeller n _sq=261). Recently additional complete pump characteristics that belong to 14 different specific speeds have been published in the literature. By considering improvements in pump design during half a century and innovations in measurement techniques, the present study is performed to repeat experiments of complete characteristics of different specific speeds existing in the literature, and to obtain complete pump characteristics for different specific speeds. The complete characteristics of seven pumps with specific speeds of n_sq=20 - 23 - 33 - 55 - 105- 209 and 261 are obtained experimentally. The results show that the complete characteristics of a pump is not only function of specific speed but also function of pump design. The number of the complete pump characteristics available in the literature is increased in this study. The obtained results revealed that, unlike the existing approach in the literature, the complete characteristics of pump that is used in the pipeline, must be used in the calculation of waterhammer pressures in the design of pipelines.

Original language	English
Title of host publication	Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009
Pages	35-40.1
Edition	PART A
DOIs	https://doi.org/10.1115/FEDSM2009-78052
Publication status	Published - 2009
Event	2009 ASME Fluids Engineering Division Summer Conference, FEDSM2009 - Vail, CO, United States Duration: 2 Aug 2009 → 6 Aug 2009

Publication series

Name	Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009
Number	PART A
Volume	1

Conference

Conference	2009 ASME Fluids Engineering Division Summer Conference, FEDSM2009
Country/Territory	United States
City	Vail, CO
Period	2/08/09 → 6/08/09

Keywords

Booster
Brake
Pump
Pump characteristics
Turbine
Waterhammer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1115/FEDSM2009-78052

Cite this

Ayder, E., Ilikan, A. N., Şen, M., Özgür, C., Kavurmacioǧlu, L., & Kirkkopru, K. (2009). Experimental investigation of the complete characteristics of rotodynamic pumps. In Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009 (PART A ed., pp. 35-40.1). (Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009; Vol. 1, No. PART A). https://doi.org/10.1115/FEDSM2009-78052

@inproceedings{f51cc053c41d4a2b8a9009e3dcef0a9c,

title = "Experimental investigation of the complete characteristics of rotodynamic pumps",

abstract = "Pump failure in a pipeline system can occur for several reasons and this undesirable event causes waterhammer phenomenon. While designing a pipeline system, minimum and maximum pressures caused by waterhammer and the variation of the pressure along the pipeline with respect to time must be determined. In order to calculate the time variation of the pressure, complete characteristics of a pump is used as one of the boundary conditions. In these unsteady conditions, the pump may turn in normal or reverse directions which define eight different working zones called pump, turbine, brake and booster. Specific speed is an essential parameter which affects characteristics of pumps. In the literature, for many years there have been only three complete pump characteristics obtained with the assistance of 1960's measuring devices and techniques. Each one of those corresponds to pumps having centrifugal (n sq=35), mixed flow nsq=147) or axial impeller n sq=261). Recently additional complete pump characteristics that belong to 14 different specific speeds have been published in the literature. By considering improvements in pump design during half a century and innovations in measurement techniques, the present study is performed to repeat experiments of complete characteristics of different specific speeds existing in the literature, and to obtain complete pump characteristics for different specific speeds. The complete characteristics of seven pumps with specific speeds of nsq=20 - 23 - 33 - 55 - 105- 209 and 261 are obtained experimentally. The results show that the complete characteristics of a pump is not only function of specific speed but also function of pump design. The number of the complete pump characteristics available in the literature is increased in this study. The obtained results revealed that, unlike the existing approach in the literature, the complete characteristics of pump that is used in the pipeline, must be used in the calculation of waterhammer pressures in the design of pipelines.",

keywords = "Booster, Brake, Pump, Pump characteristics, Turbine, Waterhammer",

author = "Erkan Ayder and Ilikan, {Ayhan N.} and Mete {\c S}en and Cahit {\"O}zg{\"u}r and Levent Kavurmacioǧlu and Kadir Kirkkopru",

year = "2009",

doi = "10.1115/FEDSM2009-78052",

language = "English",

isbn = "9780791843727",

series = "Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009",

number = "PART A",

pages = "35--40.1",

booktitle = "Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009",

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Ayder, E, Ilikan, AN, Şen, M, Özgür, C, Kavurmacioǧlu, L & Kirkkopru, K 2009, Experimental investigation of the complete characteristics of rotodynamic pumps. in Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009. PART A edn, Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009, no. PART A, vol. 1, pp. 35-40.1, 2009 ASME Fluids Engineering Division Summer Conference, FEDSM2009, Vail, CO, United States, 2/08/09. https://doi.org/10.1115/FEDSM2009-78052

Experimental investigation of the complete characteristics of rotodynamic pumps. / Ayder, Erkan; Ilikan, Ayhan N.; Şen, Mete et al.
Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009. PART A. ed. 2009. p. 35-40.1 (Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009; Vol. 1, No. PART A).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Experimental investigation of the complete characteristics of rotodynamic pumps

AU - Ayder, Erkan

AU - Ilikan, Ayhan N.

AU - Şen, Mete

AU - Özgür, Cahit

AU - Kavurmacioǧlu, Levent

AU - Kirkkopru, Kadir

PY - 2009

Y1 - 2009

N2 - Pump failure in a pipeline system can occur for several reasons and this undesirable event causes waterhammer phenomenon. While designing a pipeline system, minimum and maximum pressures caused by waterhammer and the variation of the pressure along the pipeline with respect to time must be determined. In order to calculate the time variation of the pressure, complete characteristics of a pump is used as one of the boundary conditions. In these unsteady conditions, the pump may turn in normal or reverse directions which define eight different working zones called pump, turbine, brake and booster. Specific speed is an essential parameter which affects characteristics of pumps. In the literature, for many years there have been only three complete pump characteristics obtained with the assistance of 1960's measuring devices and techniques. Each one of those corresponds to pumps having centrifugal (n sq=35), mixed flow nsq=147) or axial impeller n sq=261). Recently additional complete pump characteristics that belong to 14 different specific speeds have been published in the literature. By considering improvements in pump design during half a century and innovations in measurement techniques, the present study is performed to repeat experiments of complete characteristics of different specific speeds existing in the literature, and to obtain complete pump characteristics for different specific speeds. The complete characteristics of seven pumps with specific speeds of nsq=20 - 23 - 33 - 55 - 105- 209 and 261 are obtained experimentally. The results show that the complete characteristics of a pump is not only function of specific speed but also function of pump design. The number of the complete pump characteristics available in the literature is increased in this study. The obtained results revealed that, unlike the existing approach in the literature, the complete characteristics of pump that is used in the pipeline, must be used in the calculation of waterhammer pressures in the design of pipelines.

AB - Pump failure in a pipeline system can occur for several reasons and this undesirable event causes waterhammer phenomenon. While designing a pipeline system, minimum and maximum pressures caused by waterhammer and the variation of the pressure along the pipeline with respect to time must be determined. In order to calculate the time variation of the pressure, complete characteristics of a pump is used as one of the boundary conditions. In these unsteady conditions, the pump may turn in normal or reverse directions which define eight different working zones called pump, turbine, brake and booster. Specific speed is an essential parameter which affects characteristics of pumps. In the literature, for many years there have been only three complete pump characteristics obtained with the assistance of 1960's measuring devices and techniques. Each one of those corresponds to pumps having centrifugal (n sq=35), mixed flow nsq=147) or axial impeller n sq=261). Recently additional complete pump characteristics that belong to 14 different specific speeds have been published in the literature. By considering improvements in pump design during half a century and innovations in measurement techniques, the present study is performed to repeat experiments of complete characteristics of different specific speeds existing in the literature, and to obtain complete pump characteristics for different specific speeds. The complete characteristics of seven pumps with specific speeds of nsq=20 - 23 - 33 - 55 - 105- 209 and 261 are obtained experimentally. The results show that the complete characteristics of a pump is not only function of specific speed but also function of pump design. The number of the complete pump characteristics available in the literature is increased in this study. The obtained results revealed that, unlike the existing approach in the literature, the complete characteristics of pump that is used in the pipeline, must be used in the calculation of waterhammer pressures in the design of pipelines.

KW - Booster

KW - Brake

KW - Pump

KW - Pump characteristics

KW - Turbine

KW - Waterhammer

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T3 - Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009

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BT - Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009

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Ayder E, Ilikan AN, Şen M, Özgür C, Kavurmacioǧlu L, Kirkkopru K. Experimental investigation of the complete characteristics of rotodynamic pumps. In Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009. PART A ed. 2009. p. 35-40.1. (Proceedings of the ASME Fluids Engineering Division Summer Conference 2009, FEDSM2009; PART A). doi: 10.1115/FEDSM2009-78052

Experimental investigation of the complete characteristics of rotodynamic pumps

Abstract

Publication series

Conference

Keywords

UN SDGs

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