References

  1. E.H. Oelkers, J.G. Hering, C. Zhu, Water: is there a global crisis? Elements, 7 (2011) 157–162.
  2. F. Calise, M.D. d’Accadia, A. Macaluso, L. Vanoli, A. Piacentino, A novel solar-geothermal trigeneration system integrating water desalination: design, dynamic simulation and economic assessment, Energy, 115 (2016) 1533–1547.
  3. A. Bajpayee, T. Luo, A. Muto, G. Chen, Very low temperature membrane-free desalination by directional solvent extraction, Energy Environ. Sci., 4 (2011) 1672–1675.
  4. C. Li, S. Besarati, Y. Goswami, E. Stefanakos, H. Chen, Reverse osmosis desalination driven by low temperature supercritical organic Rankine cycle, Appl. Energy, 102 (2013) 1071–1080.
  5. T.Y. Cath, J.E. Drewes, C.D. Lundin, A Novel Hybrid Forward Osmosis Process for Drinking Water Augmentation using Impaired Water and Saline Water Sources, Water Research Foundation, 2009.
  6. S. Sethi, S. Walker, J. Drewes, P. Xu, Existing and emerging concentrate minimization and disposal practices for membrane systems, Florida Water Resour. J., 58 (2006) 38–48.
  7. O. Bamaga, A. Yokochi, E. Beaudry, Application of forward osmosis in pretreatment of seawater for small reverse osmosis desalination units, Desal. Wat. Treat., 5 (2009) 183–191.
  8. S.S. Kolluri, I.J. Esfahani, P.S.N. Garikiparthy, C.K. Yoo, A two-stage optimization approach for the synthesis of resource conservation networks involving interception units, Chem. Eng. Res. Des., 94 (2015) 52–71.
  9. M. Hajeeh, D. Chaudhuri, Reliability and availability assessment of reverse osmosis, Desalination, 130 (2000) 185–192.
  10. I.I. Kutbi, Z.A. Sabri, A.A. Husseiny, Reliability analysis of reverse osmosis plant, Desalination, 42 (1982) 291–313.
  11. K. Bourouni, Availability assessment of a reverse osmosis plant: comparison between reliability block diagram and fault tree analysis methods, Desalination, 313 (2013) 66–76.
  12. L.A. Zadeh, Fuzzy sets, Inf. Control, 8 (1965) 338–353.
  13. A. Der Kiureghian, O.D. Ditlevsen, J. Song, Availability, reliability and downtime of systems with repairable components, Reliab. Eng. Syst. Saf., 92 (2007) 231–242.
  14. A.K. Aggarwal, S. Kumar, V. Singh, Reliability and availability analysis of the serial processes in skim milk powder system of a dairy plant: a case study, Int. J. Ind. Syst. Eng., 22 (2016) 36–62.
  15. K.C. Kapur, M. Pecht, Reliability Engineering, John Wiley & Sons, 2014.
  16. D. Bradt, Use reliability, availability and maintainability techniques to optimize system operation, Hydrocarbon Process., 76 (1997) 63–65.
  17. Y. Sun, Reliability Prediction of Complex Repairable Systems: An Engineering Approach, PhD Thesis, School of Engineering Systems, Faculty of Built Environment and Engineering, Queensland University of Technology, 2006.
  18. M. Sánchez-Silva, G.-A. Klutke, Reliability and Life-Cycle Analysis of Deteriorating Systems, Springer International Publishing, 2016.
  19. C.-T. Lin, M.-J.J. Wang, Hybrid fault tree analysis using fuzzy sets, Reliab. Eng. Syst. Saf., 58 (1997) 205–213.
  20. A.D. Swain, H.E. Guttmann, Handbook of Human-Reliability Analysis with Emphasis on Nuclear Power Plant Applications. Final Report, Sandia National Labs., Albuquerque, NM, USA, 1983.
  21. H.A. Sandtorv, P. Hokstad, D.W. Thompson, Practical experience with a data collection project: the OREDA project, Reliab. Eng. Syst. Saf., 51 (1996) 159–167.