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29-11-2023 | Research Article-Mechanical Engineering

Research on Energy Transport Characteristics of an Axial Flow Circulating Pump under Unpowered Driven and Pump Operating Conditions

Authors: Hao Lv, Yujin Chen, Jiaqing Wang, Xiangzhuo Sheng, Xianghui Wei, Songying Chen

Published in: Arabian Journal for Science and Engineering

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Abstract

An axial flow circulating pump (AFCP), as a key facility of the large vessel power system, is designed for conveying cooling water of the power system. The pump will be rotated actively under the drive of motor when the vessel is navigated at a low speed, which is called the pump operating condition (POC). Besides, it will be rotated passively under the drive of Inlet flow fluid energy in the case of the vessel at a high speed, which is called the unpowered driven condition (UDC). It is worth noting that the characteristics of internal flow, energy generation and dissipation laws of the AFCP are varied under UDC and POC. This paper analyzes the energy transfer laws of the AFCP under UDC and POC using the modified PANS model and energy conveying theory. Pressure propulsion power (accounting for 82.6%) is a primary factor affecting energy conveying, while Lamb vector divergence and enstrophy (accounting for 17.4%) have limited effects on energy conveying, according to the research findings. Moreover, more intense energy generation and dissipation can be found under UDC with a rising proportion between Lamb vector divergence and enstrophy.

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Literature
1.
go back to reference Fu, S.F.; Zheng, Y.; Kan, K.: Numerical simulation and experimental study of transient characteristics in an axial flow pump during start-up. Renew. Energy 146, 1879–1887 (2020)CrossRef Fu, S.F.; Zheng, Y.; Kan, K.: Numerical simulation and experimental study of transient characteristics in an axial flow pump during start-up. Renew. Energy 146, 1879–1887 (2020)CrossRef
2.
go back to reference Wang, L.; Tang, F.P.; Chen, Y.: Evolution characteristics of suction-side-perpendicular cavitating vortex in axial flow pump under low flow condition. J. Mar. Sci. Eng. 9, 1058 (2021)CrossRef Wang, L.; Tang, F.P.; Chen, Y.: Evolution characteristics of suction-side-perpendicular cavitating vortex in axial flow pump under low flow condition. J. Mar. Sci. Eng. 9, 1058 (2021)CrossRef
4.
go back to reference Ramadhan, A.A.: Investigation of the influence of various numbers of impeller blades on internal flow field analysis and the pressure pulsation of an axial pump based on transient flow behavior. Heat Trans. 49, 2000–2024 (2020)CrossRef Ramadhan, A.A.: Investigation of the influence of various numbers of impeller blades on internal flow field analysis and the pressure pulsation of an axial pump based on transient flow behavior. Heat Trans. 49, 2000–2024 (2020)CrossRef
5.
go back to reference Yang, F.; Dong, J.J.; Yuan, Y.: Influence of rotation speed on flow field and hydraulic noise in the conduit of a vertical axial-flow pump under low flow rate condition. Machines 10, 691 (2022)CrossRef Yang, F.; Dong, J.J.; Yuan, Y.: Influence of rotation speed on flow field and hydraulic noise in the conduit of a vertical axial-flow pump under low flow rate condition. Machines 10, 691 (2022)CrossRef
8.
go back to reference Pu, K.X.; Huang, B.; Miao, H.J.: Quantitative analysis of energy loss and vibration performance in a circulating axial pump. Energy 243, 122753 (2022)CrossRef Pu, K.X.; Huang, B.; Miao, H.J.: Quantitative analysis of energy loss and vibration performance in a circulating axial pump. Energy 243, 122753 (2022)CrossRef
9.
go back to reference Kan, K.; Zhang, Q.Y.; Xu, Z., et al.: Energy loss mechanism due to tip leakage flow of axial flow pump as turbine under various operating conditions. Energy 255, 124532 (2022)CrossRef Kan, K.; Zhang, Q.Y.; Xu, Z., et al.: Energy loss mechanism due to tip leakage flow of axial flow pump as turbine under various operating conditions. Energy 255, 124532 (2022)CrossRef
10.
go back to reference Kan, K.; Maxime, B.; Chen, H.X.: Pump as turbine cavitation performance for both conventional and reverse operating modes: a review. Renew. Sustain. Energy Rev. 168, 112786 (2022)CrossRef Kan, K.; Maxime, B.; Chen, H.X.: Pump as turbine cavitation performance for both conventional and reverse operating modes: a review. Renew. Sustain. Energy Rev. 168, 112786 (2022)CrossRef
11.
go back to reference Yanjun, L.; Qixu, L.; Fan, M., et al.: Research on the influence of tip clearance of axial-flow pump on energy characteristics under pump and turbine conditions. Machines 10, 56 (2022)CrossRef Yanjun, L.; Qixu, L.; Fan, M., et al.: Research on the influence of tip clearance of axial-flow pump on energy characteristics under pump and turbine conditions. Machines 10, 56 (2022)CrossRef
12.
go back to reference Kan, K.; Zhe, X.; Chen, H.X.: Energy loss mechanisms of transition from pump mode to turbine mode of an axial-flow pump under bidirectional conditions. Energy 257, 124630 (2022)CrossRef Kan, K.; Zhe, X.; Chen, H.X.: Energy loss mechanisms of transition from pump mode to turbine mode of an axial-flow pump under bidirectional conditions. Energy 257, 124630 (2022)CrossRef
13.
go back to reference Li, Z.; Fu, L.Z., et al.: Research on characteristics of artesian flow in axial circulating pump. J. Eng. Thermophys. 39(12), 2677–2681 (2018) Li, Z.; Fu, L.Z., et al.: Research on characteristics of artesian flow in axial circulating pump. J. Eng. Thermophys. 39(12), 2677–2681 (2018)
15.
go back to reference Irimaji, S.S.: Partially-averaged navier-stokes model for turbulence: a Reynolds-averaged navier-stokes to direct numerical simulation bridging method. J. Appl. Mech. 73(3), 413 (2006)CrossRefMATH Irimaji, S.S.: Partially-averaged navier-stokes model for turbulence: a Reynolds-averaged navier-stokes to direct numerical simulation bridging method. J. Appl. Mech. 73(3), 413 (2006)CrossRefMATH
16.
go back to reference Reyes D, Lakshmipathy S Partially Averaged navier-stokes method: Modeling and simulation of low Reynolds number effects in flow past a circular cylinder. In: Aiaa Theoretical Fluid Mechanics Conference. 2011 Reyes D, Lakshmipathy S Partially Averaged navier-stokes method: Modeling and simulation of low Reynolds number effects in flow past a circular cylinder. In: Aiaa Theoretical Fluid Mechanics Conference. 2011
17.
go back to reference Girimaji, S.S.: Partially-averaged Navier-Stokes model for turbulence: a Reynolds-averaged Navier-Stokes to direct numerical simulation bridging method. J. Appl. Mech. 73(3), 413–421 (2006)CrossRefMATH Girimaji, S.S.: Partially-averaged Navier-Stokes model for turbulence: a Reynolds-averaged Navier-Stokes to direct numerical simulation bridging method. J. Appl. Mech. 73(3), 413–421 (2006)CrossRefMATH
18.
go back to reference Brändle de Motta, J.C.; Costa, P.: Assessment of numerical methods for fully resolved simulations of particle-laden turbulent flows. Comput. Fluids 2019(179), 1–14 (2019)MathSciNetCrossRefMATH Brändle de Motta, J.C.; Costa, P.: Assessment of numerical methods for fully resolved simulations of particle-laden turbulent flows. Comput. Fluids 2019(179), 1–14 (2019)MathSciNetCrossRefMATH
19.
go back to reference Zhang, D.S.; Shi, W.D., et al.: Numerical and experimental investigation of tip leakage vortex trajectory and dynamics in an axial flow pump. Computers&fluids 112, 61–71 (2015) Zhang, D.S.; Shi, W.D., et al.: Numerical and experimental investigation of tip leakage vortex trajectory and dynamics in an axial flow pump. Computers&fluids 112, 61–71 (2015)
20.
go back to reference Jin, Y.X.; Zhang, D.S.; Song, W.W., et al.: Numerical study on energy conversion characteristics of molten salt pump based on energy transport theory. Energy 244, 122674 (2022)CrossRef Jin, Y.X.; Zhang, D.S.; Song, W.W., et al.: Numerical study on energy conversion characteristics of molten salt pump based on energy transport theory. Energy 244, 122674 (2022)CrossRef
21.
go back to reference Tong, B.G.; Yin, X.Y.; Zhu, K.Q.: Theory of vortex dynamics, 2nd edn. China University of science and technology press, Hefei (2009) Tong, B.G.; Yin, X.Y.; Zhu, K.Q.: Theory of vortex dynamics, 2nd edn. China University of science and technology press, Hefei (2009)
22.
go back to reference Hamman, C.W.; Klewicki, J.C.; Kirby, R.M., et al.: On the Lamb vector divergence in Navier–Stokes flows. J. Fluid Mech. 610(610), 261–284 (2008)MathSciNetCrossRefMATH Hamman, C.W.; Klewicki, J.C.; Kirby, R.M., et al.: On the Lamb vector divergence in Navier–Stokes flows. J. Fluid Mech. 610(610), 261–284 (2008)MathSciNetCrossRefMATH
23.
go back to reference Wu, J.Z.; Lu, X.Y.; Zhuang, L.X.: Integral force acting on a body due to local flow structures. J. Fluid Mech. 576(576), 265–286 (2007)MathSciNetMATH Wu, J.Z.; Lu, X.Y.; Zhuang, L.X.: Integral force acting on a body due to local flow structures. J. Fluid Mech. 576(576), 265–286 (2007)MathSciNetMATH
24.
go back to reference Kock, F.; Herwig, H.: Local entropy production in turbulent shear flows: a high-Reynolds number model with wall functions. Int. J. Heat Mass Trans. 47(10–11), 2205–2215 (2004)CrossRefMATH Kock, F.; Herwig, H.: Local entropy production in turbulent shear flows: a high-Reynolds number model with wall functions. Int. J. Heat Mass Trans. 47(10–11), 2205–2215 (2004)CrossRefMATH
25.
go back to reference Zhang, F.; Appiah, D.; Hong, F., et al.: Energy loss evaluation in a side channel pump under different wrapping angles using entropy production method. Int. Commun. Heat Mass Tran. 113(4), 104526 (2020)CrossRef Zhang, F.; Appiah, D.; Hong, F., et al.: Energy loss evaluation in a side channel pump under different wrapping angles using entropy production method. Int. Commun. Heat Mass Tran. 113(4), 104526 (2020)CrossRef
26.
go back to reference Roy, C.: Grid convergence error analysis for mixed-order numerical schemes. AlAA J. 41(4), 595–604 (2003) Roy, C.: Grid convergence error analysis for mixed-order numerical schemes. AlAA J. 41(4), 595–604 (2003)
27.
go back to reference Stern, F.; Wilson, R.; Coleman, H., et al.: Comprehensive approach to verification and validation of CFD simulations, part 1: methodology and procedures. ASME J Fluids Eng 123, 793–802 (2001)CrossRef Stern, F.; Wilson, R.; Coleman, H., et al.: Comprehensive approach to verification and validation of CFD simulations, part 1: methodology and procedures. ASME J Fluids Eng 123, 793–802 (2001)CrossRef
28.
go back to reference Gao, Q.; Deane, G.; Shen, L.: Bubble production by air filament and cavity breakup in plunging breaking wave crests. J. Fluid Mech. 929, A44 (2021)MathSciNetCrossRefMATH Gao, Q.; Deane, G.; Shen, L.: Bubble production by air filament and cavity breakup in plunging breaking wave crests. J. Fluid Mech. 929, A44 (2021)MathSciNetCrossRefMATH
29.
go back to reference Li, B.Q.: Discontinuous finite elements in fluid dyna- mics and heat transfer. Springer, London, UK (2006)CrossRef Li, B.Q.: Discontinuous finite elements in fluid dyna- mics and heat transfer. Springer, London, UK (2006)CrossRef
30.
go back to reference Ji, L.L.; Li, W.; Shi, W.D.: Energy characteristics of mixed-flow pump under different tip clearances based on entropy production analysis. Energy 199, 117447 (2020)CrossRef Ji, L.L.; Li, W.; Shi, W.D.: Energy characteristics of mixed-flow pump under different tip clearances based on entropy production analysis. Energy 199, 117447 (2020)CrossRef
31.
go back to reference Wang, G.C.; Yang, F.K.: Estimation of the dissipation rate of turbulent kinetic energy: a review. Chem. Eng. Sci. 229, 116133 (2020)CrossRef Wang, G.C.; Yang, F.K.: Estimation of the dissipation rate of turbulent kinetic energy: a review. Chem. Eng. Sci. 229, 116133 (2020)CrossRef
32.
go back to reference Lin, T.; Li, X.J.; Zhu, Z.C., et al.: Application of enstrophy dissipation to analyze energy loss in a centrifugal pump as turbine. Renew. Energy 163, 41–55 (2021)CrossRef Lin, T.; Li, X.J.; Zhu, Z.C., et al.: Application of enstrophy dissipation to analyze energy loss in a centrifugal pump as turbine. Renew. Energy 163, 41–55 (2021)CrossRef
34.
go back to reference Wang, W.; Pavesi, G.; Pei, J.: Transient simulation on closure of wicket gates in a high-head Francis-type reversible turbine operating in pump mode. Renew. Energy 145, 1817–1830 (2020)CrossRef Wang, W.; Pavesi, G.; Pei, J.: Transient simulation on closure of wicket gates in a high-head Francis-type reversible turbine operating in pump mode. Renew. Energy 145, 1817–1830 (2020)CrossRef
Metadata
Title
Research on Energy Transport Characteristics of an Axial Flow Circulating Pump under Unpowered Driven and Pump Operating Conditions
Authors
Hao Lv
Yujin Chen
Jiaqing Wang
Xiangzhuo Sheng
Xianghui Wei
Songying Chen
Publication date
29-11-2023
Publisher
Springer Berlin Heidelberg
Published in
Arabian Journal for Science and Engineering
Print ISSN: 2193-567X
Electronic ISSN: 2191-4281
DOI
https://doi.org/10.1007/s13369-023-08492-3

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