• Title/Summary/Keyword: Very Low Specific-Speed

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Influence of Large Change of Specific Speed on the Performance of Very Low Specific Speed Centrifugal Pump (비속도의 큰 변화가 극저비속도 원심펌프의 성능에 미치는 영향)

  • Choi, Young-Do;Kagawa, Shusaku;Kurokawa, Junichi
    • The KSFM Journal of Fluid Machinery
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    • v.9 no.1 s.34
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    • pp.40-46
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    • 2006
  • Efficiency of a centrifugal pump is known to drop rapidly with a decrease of specific speed $n_s$. However, below $n_s=60\;[min^{-1},\;m^3/min,\;m]$, the pump characteristics are not yet clear. Therefore, present study is aimed to investigate the influence of large change of specific speed on the performance of a very low specific speed centrifugal pump. Moreover, influence of impeller configuration on the performance of very low specific speed pump is investigated. The results show that very low specific speed can be accomplished by reducing volute throat sectional area using circular spacer. Influence of the spacer's location and configuration in the discharge passage on the pump performance is very small. Best efficiency of very low specific speed centrifugal pump decreases proportionally to the specific speed but the best efficiency decreases on a large scale in the range of $n_s<40$. Influence of impeller configuration on the pump performance and radial thrust of centrifugal pump are considerably small in the range of extremely low specific speed $(n_s=25)$.

Influence of Circualr Casing on the Performance of Very Low Specific Speed Centrifugal Pump (원형케이싱이 극저비속도 원심펌프의 성능에 미치는 영향)

  • Choi, Young-Do;Kagawa, Shusaku;Kurokawa, Junichi
    • The KSFM Journal of Fluid Machinery
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    • v.9 no.1 s.34
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    • pp.32-39
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    • 2006
  • Recently, according to the trend of small size in scale and high speed in rotation of turbomachinery, very low specific speed centrifugal pump is taking a growing interest because the pump is characterized by high head and low flow rate with convenience of manufacturing and maintenance compared with conventional positive displacement pump. However, the efficiency of the very low specific speed centrifugal pump drops rapidly with the decrease of specific speed. The purpose of this study is nor only to examine the influence of casing type on the performance of centrifugal pump in the range of very low specific speed but also to determine the proper casing type for the improvement of pump performance. The results show that circular casing is suitable for the centrifugal pump in the range of very low specific speed and the influence of impeller configuration on the pump performance is very small. Radial thrust in the circular and volute casings is considerably small in the range of very low specific speed.

Improvement of Pump Performance and Suction Performance of a Very Low Specific Speed Centrifugal Pump (극저비속도 원심펌프의 펌프성능 및 흡입성능 향상)

  • Choi Young-Do;Kurokawa Junichi
    • The KSFM Journal of Fluid Machinery
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    • v.9 no.3 s.36
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    • pp.29-35
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    • 2006
  • There are high expectations of improving the performance of a centrifugal pump in the range of very low specific speed which has been developed recently for the use instead of a conventional positive displacement pump. However, even though elaborated studies has been done for the pump intensively, the pump performance has not increased so much. Also, it is difficult to find detailed information from published literatures for suction performance of the very low specific speed centrifugal pump. Therefore, this study is aimed to improve the pump performance more and to make clear suction performance of the very low specific speed centrifugal pump. Recircular flow stopper is installed on the pump casing wall at the region of impeller outlet to improve the pump performance and J-Groove is also installed at the inlet of the pump casing for the purpose of suppressing occurrence of cavitation as well as improving pump performance. The result suggests that the simultaneous improvement of pump performance and suction performance of the very low specific speed centrifugal pump is possible by adopting optimum configuration of the recirculation flow stopper and J-Groove.

Performance Evaluation on Impeller Related Parameters Change in Centrifugal Pump of very Low Specific Speed (극저비속도 영역에서 임펠러 관련인자 변화에 따른 원심펌프 성능 평가)

  • Choung, Young-Dae;Lee, Kye-Bock
    • The KSFM Journal of Fluid Machinery
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    • v.14 no.1
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    • pp.11-17
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    • 2011
  • The numerical study was conducted to investigate the pump performance due to impeller related parameters change in centrifugal pump of very low specific speed by using CFD code. A small centrifugal pump whose specific speed is $N_s=76.2$ was used, and the performance characteristics were discussed for different number of vanes, rotational speed, and the length and height of vane. The numerical results at a very low specific speed show that the increase of the number of vanes has little effect on improvement of output pressure but results in the reduction of pressure fluctuation, and that the head increases with the increase in the rotational speed. The decreasing the length of vane has a considerable reduction of the capacity coefficient in comparison with decreasing the height of vane.

A Study on the Performance and Internal Flow Characteristics of a Very Low Specific Speed Centrifugal Pump (극저비속도 원심펌프의 성능과 내부유동특성에 관한 연구)

  • Kurokawa Junichi;Lee Young-Ho;Choi Young-Do
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.29 no.7 s.238
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    • pp.784-794
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    • 2005
  • In the very low specific speed range ($n_s=0.24$ < 0.25, non-dimensional), the efficiency of centrifugal pump designed by a conventional method is very low in common. Therefore, positive-displacement pumps have long been used widely. Recently, since the centrifugal pumps are becoming higher in rotational speed and smaller in size, there expects to develop a new centrifugal pump with a high performance to replace the positive-displacement pumps. The purpose of this study is to investigate the internal flow characteristics of a very low specific speed centrifugal pump and to examine the effect of internal flow pattern on pump performance. The results show that the theoretical head definition of semi-open impeller should be revised by the consideration of high slip factor in the semi-open impeller, and the leakage flow through the tip clearance results in a large effect on the impeller internal flow. Strong reverse flow at the outlet of semi-open impeller reduces the absolute tangential velocity considerably, and the decreased absolute tangential velocity increasese the slip factor with the reduction of theoretical head.

Internal Flow Measurement of Very Low Specific Speed Semi-Open Impeller by PIV (PIV를 이용한 극저비속도 세미오픈임펠러의 내부유동 계측)

  • Nishino Koichi;Lee Young-Ho;Choi Young-Do
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.29 no.7 s.238
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    • pp.773-783
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    • 2005
  • Internal flow measurement of very low specific-speed semi-open impellers has been carried out by PIV in order to understand better the internal flow patterns that are responsible fur the unique performance of these centrifugal pumps operating in the range of very low specific speed. Two types of impellers, one equipped with six radial blades (Impeller A) and the other with four conventional backward-swept blades (Impeller B), are tested in a centrifugal pump operating at a non-dimensional specific-speed of $n_s=0.24$. Complex flow patterns captured by PIV are discussed in conjunction with the overall pump performance measured separately. It is revealed that Impeller A achieves higher effective head than Impeller B even though the flow patterns in Impeller A are more complex, exhibiting secondary flows and reverse flows in the impeller passage. It is shown that both the localized strong outward flow at the pressure side of each blade outlet and the strong outward through-flow along the suction side of each blade are responsible for the better head performance of Impeller A.

CFD Analysis on the Performance and Internal Flow of a Micro Cross-Flow Hydro Turbine in the Range of Very Low Specific Speed (극저비속도 영역 마이크로 횡류수차의 성능 및 내부유동 수치해석적 연구)

  • Choi, Young-Do;Son, Sung-Woo
    • The KSFM Journal of Fluid Machinery
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    • v.15 no.6
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    • pp.25-30
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    • 2012
  • Renewable energy has been interested because of fluctuation of oil price, depletion of fossil fuel resources and environmental impact. Amongst renewable energy resources, hydropower is most reliable and cost effective way. In this study, to develop a new type of micro hydro turbine which can be operated in the range of very low specific speed, a cross-flow hydro turbine with simple structure is proposed. The turbine is designed to be used at the very low specific speed range of hydropower resources, such as very high-head and considerably small-flow rate water resources. CFD analysis on the performance and internal flow characteristics of the turbine is conducted to obtain a practical data for the new design method of the turbine. Results show that optimized arrangement of guide vane angle and inner guide angle can give contribution to the turbine performance improvement.

Improvement of Performance Instability and Miniaturization of Very Low Specific Speed Centrifugal Pump (극저비속도 원심펌프의 불안정성능개선 및 소형화에 관한 연구)

  • Choi, Young-Do;Kurokawa, Junichi
    • The KSFM Journal of Fluid Machinery
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    • v.10 no.4
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    • pp.21-28
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    • 2007
  • The ratio of disk friction loss in a centrifugal pump is very large for the total pump loss in the range of very low specific speed. Therefore, impeller radius should be shortened to increase the pump efficiency because the disk friction loss is proportional to the fifth power of impeller radius. In order to compensate the decreased head by the shortened impeller radius, vane angle at impeller outlet should be increased. However, as the vane angle at impeller outlet becomes larger, performance instability occurs at low flow rate regions. In this study, J-Groove is adopted to suppress the performance instability and detailed examination is performed for the influence of the J-Groove on the pump performance. The results show that J-Groove gives good effect on the suppression of performance instability. Moreover, as J-Groove increases pump head considerably, the pump size can be smaller for head requirements.

Tip Clearance Effect of Low Mass Flow Rate High Specific Speed Centrifugal Impeller (저유량 고비속도 원심압축기 임펠러에서의 팁간극에 따른 효과)

  • Im, Kang-Soo;Kim, Yang-Gu;Kim, Kyi-Soon
    • 한국전산유체공학회:학술대회논문집
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    • 2008.03b
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    • pp.240-243
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    • 2008
  • In this paper, the design of Centrifugal Compressor which is used in sizes 50 horse power has 8 pressure ratio and numerical analysis of the flow within compressor varying tip clearance length are performed. To get high pressure ratio with low power the exit height of impellers is low but compressor has very high speed of revolution. So compressor has high specific speed although mass flow rate is very small. The shape of impellers at the first stage is carried out. Flow and performance characteristics of impellers has been analyzed by using a commercial CFD program, $Fine^{TM}$/turbo. The result shows that loss coefficient is affected by tip clearance length and compressor has proper tip clearance length. It is possible to decrease loss by selecting apt tip clearance length.

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A Study on the Internal Flow Characteristics of a Very Low Specific Speed Centrifugal Pump by PTV (PTV 계측법에 의한 극저비속도 원심펌프의 내부유동특성에 관한 연구)

  • Choi, Young-Do;Matsui, Jun;Kurokawa, Junichi;Lee, Young-Ho
    • The KSFM Journal of Fluid Machinery
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    • v.9 no.1 s.34
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    • pp.9-18
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    • 2006
  • In the range of very low specific speed ($n_s<0.25$, non-dimensional), the performance of a centrifugal pump is much different from that of a centrifugal pump of normal ns and the efficiency of the pump drops rapidly with the decrease of $n_s$. In order to examine the reason of unstable performance characteristics of the very low $n_s$- centrifugal pump, the internal flow of the pump with a semi-open impeller is measured by a PTV(Particle Tracking Velocimetry) system. The purpose of this study is to make clear the internal flow characteristics and to obtain basic knowledge of the pump performance. The results show that the leakage flow through tip clearance give a strong effect on the flow pattern of impeller passage. A large vortex in the impeller passage and a strong reverse flow at impeller outlet are formed in the range of small flow rates, and the vortex and the reverse flow together reduce the absolute tangential velocity at the impeller outlet and cause the performance instability.