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Numerical Characterization of the Effects of Flow Rate on Pressure and Velocity Distribution of Pump as Turbine


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1 School of Chemistry and Chemical Engineering, Yulin University, Yulin 719000, China
 

Small hydropower systems are the best solution for electromechanical components through the use of pump operating at inverse conditions as turbine for power generation in rural settlements of under developed countries especially since its construction and maintenance is cheap. This study investigates the effects of flow rate and internal flow characterization of a model centrifugal pump operating at a rotational speed of n = 1400 rpm with 4 main blades and 4 splitters at a head of 18 (m) and flow of 12.5 (m3/h). The experiment and numerical calculations were performed, and pressure and velocity were analysed based on the results obtained. According to the results obtained, velocity increased by movement of flow through the flow passage. As the discharge increased, head decreased but the power required to run the pump increased. Centrifugal pump can perform in reverse mode as a hydro turbine devoid of any modification on mechanical components with a maximum efficiency of 62.07% recorded at Q = 20 m3/h. The study helps to recognize the numerical flow characterization and serves as a supporting document to provide vital information on centrifugal pumps to other studies.

Keywords

Hydraulic Performance, Pump as Turbine, Rotational Speed, Transient Flow Characteristics.
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  • Nautiyal, H. and Kumar, A., Reverse running pumps analytical, experimental and computational study: a review. Renew. Sust. Ener. Rev., 2010, 14, 2059–2067.
  • Zhang, J., Adu, D., Fang, Y. and Yin, T., Review on sub-Saharan African small-hydropower situation. Proceedings of the Institution of Civil Engineers – Energy, 2017, jener.17.00025.
  • Agarwal, T., Review of pump as turbine (PAT) for microhydropower. Int. J. Emerg. Technol. Adv. Eng., 2012, 2(11), 163– 168.
  • Williams, A., Pumps as turbines for low-cost micro hydro power. Renew. Energy, 1996, 9, 1227.
  • Derakhshan, S. and Nourbakhsh, A., Experimental study of characteristic curves of centrifugal pumps working as turbines in different specific speeds. Exp. Therm. Fluid Sci., 2008, 32, 800–807.
  • Amelio, M. and Barbarelli, S., A one-dimensional numerical model for calculating the efficiency of pumps ad turbines for implementation in micro hydropower plants. In ASME 7th Biennial Conference on Engineering System Design and Analysis, 2004, pp. 65–77.
  • Dixon, S. L., Fluid Mechanics and Thermodynamics of Turbomachinery, Elsevier, 2005, 5th edn.
  • Fernandez, J. et al., Performance of a centrifugal pump running in inverse mode. J. Power Energ., 2004, 4, 265–271.
  • Singh, P. and Nestmann, F., An optimisation routine on a prediction and selection model for the turbine operation of centrifugal pumps. Exp. Therm. Fluid Sci., 2010, 34(2), 152–164.
  • Derakhshan, S., Nourbakhsh, A. and Mohammadi, B., Efficiency improvement of centrifugal reverse pumps. J. Fluids Eng., 2009, 131(2), 9.
  • Joshi, S., Holloway, A. G. L. and Chang, L., Selecting a high specific speed pump for low head hydroelectric power generation. IEEE Trans., 2005, 75, 816–826.
  • Nautiyal, H., Varun Kumar, A. and Yadav, S., Experimental investigation of centrifugal pump working as turbine for small hydropower systems. Energy Sci. Technol., 2011, l(1), 79–86.
  • Barrio, R., Fernandez, J., Par Rondo, J. and Blanco, E., Performance prediction of a centrifugal pump working in direct and reverse mode using computational fluid dynamics. In Proceedings of the International Conference on Renewable Energies and Power Quality, Granada, Spain, 2010, pp. 1–5.
  • Shukla, A., Performance evaluation of pump as turbine [M Tech thesis], Indian Institute of Technology Roorkee, 2008.
  • Rawal, S. and Kshirsagar, J. T., Numerical simulation on a pump operating in a turbine mode. In Proceedings of the Twenty-Third International Pump Users’ Symposium, Texas, Houston, 2007, pp. 21–27.
  • Morros, C. S., Oro, J. M. F. and Diaz, K. M. A., Numerical modelling and flow analysis of a centrifugal pump running as a turbine: unsteady flow structures and its effects on the global performance. Int. J. Numer. Methods Fluids, 2011, 65(5), 542–562.
  • Carravetta, A., Fecarotta, O., Martino, R. and Antipodi, L., PAT efficiency variation with design parameters. Proc. Eng., 2014, 70, 285–291.
  • Zhang, J. et al., Numerical investigation of transient vortices and turbulent flow behaviour in centrifugal pump operating in reverse mode as turbine. Mater. Sci. Energy Technol., 2018; doi:doi.org/ 10.1016/j.mset.2018.12.002
  • Fan Zhang et al., Transient flow characterization in energy conversion of a side channel pump under different blade suction angles. Energy, 2018, 161, 635–648.
  • Fan Zhang et al., Effect of blade profile for suction side on the performance of a side channel pump. Proc. Ins. Mech. Eng., A – J. Pow. Energy, 2016, 230(6), 586–597.

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  • Numerical Characterization of the Effects of Flow Rate on Pressure and Velocity Distribution of Pump as Turbine

Abstract Views: 411  |  PDF Views: 120

Authors

Yong Gao
School of Chemistry and Chemical Engineering, Yulin University, Yulin 719000, China
Xiaoyong Fan
School of Chemistry and Chemical Engineering, Yulin University, Yulin 719000, China
Rui Dang
School of Chemistry and Chemical Engineering, Yulin University, Yulin 719000, China

Abstract


Small hydropower systems are the best solution for electromechanical components through the use of pump operating at inverse conditions as turbine for power generation in rural settlements of under developed countries especially since its construction and maintenance is cheap. This study investigates the effects of flow rate and internal flow characterization of a model centrifugal pump operating at a rotational speed of n = 1400 rpm with 4 main blades and 4 splitters at a head of 18 (m) and flow of 12.5 (m3/h). The experiment and numerical calculations were performed, and pressure and velocity were analysed based on the results obtained. According to the results obtained, velocity increased by movement of flow through the flow passage. As the discharge increased, head decreased but the power required to run the pump increased. Centrifugal pump can perform in reverse mode as a hydro turbine devoid of any modification on mechanical components with a maximum efficiency of 62.07% recorded at Q = 20 m3/h. The study helps to recognize the numerical flow characterization and serves as a supporting document to provide vital information on centrifugal pumps to other studies.

Keywords


Hydraulic Performance, Pump as Turbine, Rotational Speed, Transient Flow Characteristics.

References





DOI: https://doi.org/10.18520/cs%2Fv117%2Fi1%2F57-63