References
- J. Perez, S. Chiva, W. Segala, R. Morales, C. Negrao, E. Julia,
L. Hernandez, Performance Analysis of Flow in a Impeller-
Diffuser Centrifugal Pumps Using CFD: Simulation and
Experimental Data Comparisons, ECCOMAS CFD 2010,
Lisbon, Portugal, 2010, pp. 1–18.
- M. Nataraj, R. Singh, Analyzing pump impeller for performance
valuation using RSM and CFD, Desal. Wat. Treat., 52 (2014)
6822–6831.
- D. Kaya, E.A. Yagmur, K.S. Yigit, F.C. Kilic, A.S. Eren, C. Celik,
Energy efficiency in pumps, Energy Convers. Manage., 49 (2008)
1662–1673.
- M.H. Aksoy, O. Babayigit, O. Kocaaslan, M. Ozgoren, Effect
of Blade Wrap Angle to Centrifugal Pump Impeller Efficiency,
Proc. International Conference: EFM 2013, Kutna Hora, Czech
Republic, 2013, pp. 799–806.
- S. Chakraborty, K.M. Pandey, Numerical studies on effects of
blade number variations on performance of centrifugal pumps
at 4000 rpm, IJET, 3 (2011) 410–416.
- A. Arnone, P. Boncinelli, A. Munari, E. Spano, Application of
CFD Techniques to the Design of the Ariane 5 Turbopump,
14th Computational Fluid Dynamics Conference, AIAA paper
99-3380, Norfolk, VA, USA, 1999, pp. 1087–1097.
- O. Babayigit, O. Kocaaslan, M.H. Aksoy, K.M. Güleren, M.
Ozgoren, Numerical identification of blade exit angle effect on
the performance for a multistage centrifugal pump impeller,
EPJ Web Conf., 92 (2015) 1–7.
- S. Yedidiah, A study in the use of CFD in the design of
centrifugal pumps, Eng. Appl. Comp. Fluid, 2 (2008) 331–343.
- M.L. Hedia, K. Hatema, Z. Ridhaa, Numerical analysis of the
flow through in centrifugal pumps, Int. J. Therm. Technol.,
2277–4114 (2012) 216–221.
- V. Godbole, R. Patil, S.S. Gavade, Axial Thrust in Centrifugal
Pumps – Experimental Analysis, ICEM 15, Porto/Portugal,
2012, pp. 1–14.
- The Centrifugal Pump, Grundfos Research and Technology,
Chapter 5, Pump Losses, Grundfos Management A/S,
Bjerringbro, Denmark, 2012.
- J.F. Gulich, Centrifugal Pumps, Springer, Berlin, Germany,
2014.
- B. Cui, Z. Zhu, J. Zhang, Y. Chen, The flow simulation
and experimental study of low-specific-speed high-speed
complex centrifugal impellers, Chin. J. Chem. Eng., 14 (2006)
435–441.
- B. Jafarzadeh, A. Hajari, M.M. Alishahi, M.H. Akbari, The
flow simulation of a low-specific-speed high-speed centrifugal
pump, Appl. Math. Modell., 35 (2011) 242–249.
- W.G. Li, Effects of viscosity on turbine mode performance and
flow of a low specific speed centrifugal pump, Appl. Math.
Modell., 40 (2016) 904–926.
- K.W. Cheah, T.S. Lee, S.H. Winoto, Z.M. Zhao, Numerical flow
simulation in a centrifugal pump at design and off-design
conditions, Int. J. Rotating Mach., 2007 (2007) 1–8.
- H. Safikhani, A. Khalkhali, M. Farajpoor, Pareto based multiobjective
optimization of centrifugal pumps using CFD, neural
networks and genetic algorithms, Eng. Appl. Comp. Fluid,
5 (2011) 37–48.
- K.H. Wu, B.J. Lin, C.I. Hung, Novel design of centrifugal pump
impellers using generated machining method and CFD, Eng.
Appl. Comp. Fluid, 2 (2008) 195–207.
- O. Kocaaslan, M.H. Aksoy, O. Babayigit, M. Ozgoren, An
Experimental Investigation of Surface Roughness Influence
on Centrifugal Pump Characteristics, Proc. International
Conference: EFM 2013, Kutna Hora, Czech Republic, 2013,
pp. 814–819.
- W. Jiang, G. Li, P.F. Liu, L. Fu, Numerical investigation of
influence of the clocking effect on the unsteady pressure
fluctuations and radial forces in the centrifugal pump with
vaned diffuser, Int. Commun. Heat Mass Transfer, 71 (2016)
164–171.
- H. Stel, T. Sirino, F.J. Ponce, S. Chiva, R.E.M. Morales, Numerical
investigation of the flow in a multistage electric submersible
pump, J. Pet. Sci. Eng., 136 (2015) 41–54.
- F. Ayad, H.M. Abdalla, A. Abou El-Azm Aly, Effect of semi-open
impeller side clearance on the centrifugal pump performance
using CFD, Aerosp. Sci. Technol., 47 (2015) 247–255.
- A. Engeda, M. Rautenberg, Partial Flow Performance
Comparisons of Semi-open and Closed Centrifugal Impellers,
ImechE, C334/88 Edinburgh, U.K. Bury St. Edmunds, U.K.,
Mech. Engng. Publications Ltd., 1988.
- S. Liu, N. Michihiro, K. Yoshida, Impeller geometry suitable for
mini turbo-pump, J. Fluids Eng., 123 (2001) 500–506.
- H. Liu, J. Wang, Y. Wang, H. Huang, L. Jiang, Partiallyaveraged
Navier-Stokes model for predicting cavitating flow in
centrifugal pump, Eng. Appl. Comp. Fluid, 8 (2014) 319–329.
- L. Zhou, W. Shi, W. Lu, B. Hu, S. Wu, Numerical investigations
and performance experiments of a deep-well centrifugal pump
with different diffusers, J. Fluids Eng., 134 (2012) 1–8.
- S.D. Kyparissis, E.C. Douvi, E.E. Panagiotopoulos, D.P.
Margaris, A.E. Filios, CFD flow field analysis and hydrodynamic
double-arc blade design effects for optimum centrifugal pump
performance, Int. Rev. Mech. Eng., 3 (2009) 284–294.
- Anonymous, Fluent 14.0 User Guide, Fluent Inc., 2015.
- H. Versteeg, W. Malalasekra, An Introduction to Computational
Fluid Dynamics: The Finite Volume Method, John Wiley &
Sons, New York, 1995.
- K.M. Pandey, S. Chakraborty, A.P. Singh, Numerical analysis of
centrifugal pumps with fluent software, Int. J. Appl. Eng. Res.,
6 (2011) 1117–1126.
- W.B. Fan, W.G. Li, X.J. Gong, X.R. Zhang, Evaluation of
the effect of a hydraulic impeller in a flocculation basin on
hydrodynamic behavior using computational fluid dynamics,
Desal. Wat. Treat., 54 (2015) 1361–1374.
- K.K. Singh, S.M. Mahajani, K.T. Shenoy, A.W. Patwardhan, S.K.
Ghosh, CFD modeling of pilot-scale pump-mixer: single-phase
head and power characteristics, Chem. Eng. Sci., 62 (2007)
1308–1322.
- B.K. Baysal, Centrifugal Pumps Account Drawings and
Construction Specifications, Istanbul Technical University
Publishing House, 1979. (in Turkish)
- J.P. Holman, J.G. Walter, Experimental Methods for Engineers,
2nd ed., McGraw-Hill, New York, 1994.
- O. Kocaaslan, M. Ozgoren, M.H. Aksoy, O. Babayigit,
Experimental and numerical investigation of coating effect
on pump impeller and volute, J. Appl. Fluid Mech., 9 (2016)
2475–2487.
- S.S. Yang, S. Derakshan, F.Y. Kong, Theoretical, numerical
and experimental prediction of pump as turbine performance,
Renew. Energy, 48 (2012) 507–513.
- S. Salvodori, A. Marini, F. Martelli, Methodology for the residual
axial thrust evaluation in multistage centrifugal pumps, Eng.
Appl. Comp. Fluid, 6 (2012) 271–284.
- P. Adami, S.D. Gatta, F. Martelli, L. Bertolazzi, D. Maestri, G.
Marenco, A. Piva, Multistage Centrifugal-Pumps: Assessment
of a Mixing Plane Method for CFD Analysis, 60° Congresso
Nazionale ATI, Rome, 2005.