References

  1. D. Song, Y. Wang, S. Xu, Z. Wang, H. Liu, S. Wang, Control logic and strategy for emergency condition of piston type energy recovery device, Desalination, 348 (2014) 1–7.
  2. E. Xu, Y. Wang, J. Zhou, S. Xu, S. Wang, Theoretical investigations on rotor speed of the self-driven rotary energy recovery device through CFD simulation, Desalination, 398 (2016) 189–197.
  3. E. Xu, Y. Wang, J. Wu, S. Xu, Y. Wang, S. Wang, Investigations on the applicability of hydrostatic bearing technology in a rotary energy recovery device through CFD simulation and validating experiment, Desalination, 383 (2016) 60–67.
  4. A. Zhu, P.D. Christofides, Y. Cohen, Effect of thermodynamic restriction on energy cost optimization of RO membrane water desalination, Ind. Eng. Chem. Res., 48 (2008) 6010–6021.
  5. A. Zhu, P.D. Christofides, Y. Cohen, Energy consumption optimization of reverse osmosis membrane water desalination subject to feed salinity fluctuation, Ind. Eng. Chem. Res., 48 (2009) 9581–9589.
  6. B. Qi, Y. Wang, S. Xu, Z. Wang, S. Wang, Operating energy consumption analysis of RO desalting system: Effect of membrane process and energy recovery device (ERD) performance variables, Ind. Eng. Chem. Res., 51 (2012) 14135–14144.
  7. L. Gao, A. Rahardianto, H. Gu, P.D. Christofides, Y. Cohen, Energy-optimal control of RO desalination, Ind. Eng. Chem. Res., 53 (2014) 7409–7420.
  8. I.B. Cameron, R.B. Clemente, SWRO with ERI’s PX pressure exchanger device - A global survey, Desalination, 221 (2008) 136–142.
  9. E. Xu, Y. Wang, L. Wu, S. Xu, Y. Wang, S. Wang, Computational fluid dynamics simulation of brine–Seawater mixing in a rotary energy recovery device, Ind. Eng. Chem. Res., 53 (2014) 18304–18310.
  10. R.L. Stover, A. Ameglio, P.A.K. Khan, The Ghalilah SWRO plant: An overview of the solutions adopted to minimize energy consumption, Desalination, 184 (2005) 217–221.
  11. R.L. Stover, SWRO process simulator, Desalination, 221 (2008) 126–135.
  12. S. Mambretti, E. Orsi, S. Gagliardi, R. Stover, Behavior of energy recovery devices in unsteady flow conditions and application in the modelling of the Hamma desalination plant, Desalination, 238 (2009) 233–245.
  13. E. Mucchi, G. Dalpiaz, A. Rivola, Dynamic behavior of gear pumps: Effect of variations in operational and design parameters, Meccanica, 46 (2011) 1191–1212.
  14. S. Kim, Y. Nam, M. Park, Design of port plate in gerotor pump for reduction of pressure pulsation, J. Mech. Sci. Technol., 20 (2006) 1626–1637.
  15. J. Kim, H. Kim, J. Jung, S. Oh, S. Jung, Relation between pressure variations and noise in axial type oil piston pumps, KSME. Int. J., 18 (2004) 1019–1025.
  16. J. Ma, Y. Fang, B. Xu, H. Yang, Optimization of cross angle based on the pumping dynamics model, J. Zhejiang Univ-Sc. A., 11 (2010) 181–190.
  17. T. Polizos, T. Babcock, L. Hauge, Pressure exchanger with an anti-cavitation pressure relief system in the end covers, U.S. Patent, 6540487B2, (2003).
  18. S. Bross, W. Kochanowski, C. Schuler, Rotary pressure exchanger, U.S. Patent, 0104588, (2007).
  19. Y. Wang, Y. Duan, J. Zhou, S. Xu, S. Wang, Introducing pre-pressurization/depressurization grooves to diminish flow fluctuations of a rotary energy recovery device: Numerical simulation and validating experiment, Desalination, 413 (2017) 1–9.
  20. ANSYS Fluent User’s Guide (release 14. 5) ANSYS, Inc: Canonsburg, PA, (2012).