1. R. Salcedo, E. Antipova, D. Boer, L. Jiménez, G. Guillén-Gosálbez, Multi-objective optimization of solar Rankine cycles coupled with reverse osmosis desalination considering economic and life cycle environmental concerns, Desalination, 286 (2012) 358–371.
  2. K. Ansari, H. Sayyaadi, M. Amidpour, A comprehensive approach in optimization of a dual nuclear power and desalination system, Desalination, 269 (2011) 25–34.
  3. Y.S.H. Najjar, A.M. Abubaker, A.F.S. El-Khalil, Novel inlet air cooling with gas turbine engines using cascaded wasteheat recovery for green sustainable energy, Energy, 93 (2015) 770–785.
  4. G. Iaquaniello, A. Salladini, A. Mari, A.A. Mabroukc, H.E.S. Fath, Concentrating solar power (CSP) system integrated with MED-RO hybrid desalination, Desalination, 336 (2014) 121–128.
  5. M.H.K. Manesh, H. Ghalami, M. Amidpour, M.H. Hamedi, Optimal coupling of site utility steam network with MED-RO desalination through total site analysis and exergoeconomic optimization, Desalination, 316 (2013) 42–52.
  6. H. Mokhtari, M. Sepahvand, A. Fasihfar, Thermoeconomic and exergy analysis in using hybrid systems (GT + MED + RO) for desalination of brackish water in Persian Gulf, Desalination, 399 (2016) 1–15.
  7. H. Mokhtari, M. Bidi, M. Gholinejad, Thermoeconomic analysis and multiobjective optimization of a solar desalination plant, J. Sol. Energy, 2014 (2014) 13 pages, https://doi. org/10.1155/2014/892348.
  8. S. Loutatidou, H.A. Arafat, Techno-economic analysis of MED and RO desalination powered by low-enthalpy geothermal energy, Desalination, 365 (2015) 277–292.
  9. G. Filippini, M.A. Al-Obaidi, F. Manenti, I.M. Mujtaba, Performance analysis of hybrid system of multi effect distillation and reverse osmosis for seawater desalination via modelling and simulation, Desalination, 448 (2018) 21–35.
  10. M. Salimi, M. Amidpour, Investigating the integration of desalination units into cogeneration systems utilizing R-curve tool, Desalination, 419 (2017) 49–59.
  11. S. Ud-Din Khan, S. Ud-Din Khan, Karachi Nuclear Power Plant (KANUPP): as case study for techno-economic assessment of nuclear power coupled with water desalination, Energy, 127 (2017) 372–380.
  12. S. Ihm, O.Y. Al-Najdi, O.A. Hamed, G. Jun, H. Chung, Energy cost comparison between MSF, MED and SWRO: case studies for dual purpose plants, Desalination, 397 (2016) 116–125.
  13. A.M.A. Arani, V. Zamani, A. Behbahaninia, Economic analysis of a combined power and desalination plant considering availability changes due to degradation, Desalination, 414 (2017) 1–9.
  14. S.R. Hosseini, M. Amidpour, S.E. Shakib, Cost optimization of a combined power and water desalination plant with exergetic, environment and reliability consideration, Desalination, 285 (2012) 123–130.
  15. S. Sanaye, S. Asgari, Four E analysis and multi-objective optimization of combined cycle power plants integrated with multi-stage flash (MSF) desalination unit, Desalination, 320 (2013) 105–117.
  16. B. Ghorbani, M. Mehrpooya, H. Ghasemzadeh, B. Ghorbani, M. Mehrpooya, H. Ghasemzadeh, Investigation of a hybrid water desalination, oxy-fuel power generation and CO2 liquefaction process, Energy, 158 (2018) 1105–1119.
  17. B. Ghorbani, M. Mehrpooya, M. Sadeghzadeh, Developing a tri-generation system of power, heating, and freshwater (for an industrial town) by using solar flat plate collectors, multi-stage desalination unit, and Kalina power generation cycle, Energy Convers. Manage., 165 (2018) 113–126.
  18. M. Mehrpooya, B. Ghorbani, S.S. Hosseini, Thermodynamic and economic evaluation of a novel concentrated solar power system integrated with absorption refrigeration and desalination cycles, Energy Convers. Manage., 175 (2018) 337–356.
  19. M.W. Shahzad, M. Burhan, K.C. Ng, Pushing desalination recovery to the maximum limit: Membrane and thermal processes integration, Desalination, 416 (2017) 54–64.
  20. M.S. Azhar, G. Rizvi, I. Dincer, Integration of renewable energy based multigeneration system with desalination, Desalination, 404 (2017) 72–78.
  21. A. Nemati, M. Sadeghi, M. Yari, Exergoeconomic analysis and multi-objective optimization of a marine engine waste heat driven RO desalination system integrated with an organic Rankine cycle using zeotropic working fluid, Desalination, 422 (2017) 113–123.
  22. Y.S.H. Najjar, A.M. Abubaker, Thermoeconomic analysis and optimization of a novel inlet air cooling system with gas turbine engines using cascaded waste-heat recovery, Energy, 128 (2017) 421–434.
  23. P. Ahmadi, I. Dincer, Thermodynamic analysis and thermoeconomic optimization of a dual pressure combined cycle power plant with a supplementary firing unit, Energy Convers. Manage., 52 (2011) 2296–2308.
  24. M. Ameri, H. Mokhtari, M.M. Sani, 4E analyses and multiobjective optimization of different fuels application for a large combined cycle power plant, Energy, 156 (2018) 371–386.
  25. A.M. Nabati, M.S. Sadeghi, S.N. Naserabad, H. Mokhtari, S. Izadpanah, Thermo-economic analysis for determination of optimized connection, Energy, 162 (2018) 1062–1076.
  26. H. Mokhtari, H. Ahmadisedigh, M. Ameri, the optimal design and 4E analysis of double pressure HRSG utilizing steam injection for Damavand power plant between solar field and combined cycle power plant, Energy, 118 (2017) 399–413.
  27. H. Mokhtari, A. Esmaieli, H. Hajabdollahi, Thermo-economic analysis and multiobjective optimization of dual pressure combined cycle power plant with supplementary firing, Heat Transfer Asian Res., 45 (2016) 59–84.
  28. P. Ahmadi, M.A. Rosen, I. Dincer, Greenhouse gas emission and exergo-environmental analyses of a trigeneration energy system, Int. J. Greenhouse Gas Control, 5 (2011) 1540–1549.
  29. A. Baghernejad, M. Yaghoubi, Exergoeconomic analysis and optimization of an integrated solar combined cycle system (ISCCS) using genetic algorithm, Energy Convers. Manage., 52 (2011) 2193–2203.
  30. A. Esmaieli, P. Keshavarz, M.S. Ehsan Shakib, M. Amidpour, Applying different optimization approaches to achieve optimal configuration of a dual pressure heat recovery steam generator, Int. J. Energy Res., 37 (2012) 1440–1452.
  31. A. Bejan, G. Tsatsaronis, M.J. Moran, M. Moran, Thermal Design and Optimization, Wiley Interscience, John Wiley Sons Inc., New York, 1996.
  32. V. Ganapathy, Industrial Boilers and Heat Recovery Steam Generators Design, Applications, and Calculations, Marcel Dekker, Inc., New York, 2003.
  33. S. Safarian, F. Aramoun, Energy and exergy assessments of modified organic Rankine cycles (ORCs), Energy Rep., 1 (2015) 1–7.
  34. Y.A. Cengel, M.A. Boles, Thermodynamics, an Engineering Approach, 6th ed., McGraw Hill, New York, NY, 2007.
  35. H. Mokhtari, H. Ahmadisedigh, I. Ebrahimi, Comparative 4E analysis for solar desalinated water production by utilizing organic fluid and water, Desalination, 377 (2016) 108–122.
  36. M. Khanarmuei, H. Ahmadisedigh, I. Ebrahimi, L. Gosselin, H. Mokhtari, Comparative design of plug and recirculation RO systems; thermoeconomic: case study, Energy, 121 (2017) 205–219.
  37. N.M. Al-Bastaki, A. Abbas, Predicting the performance of RO membranes, Desalination, 132 (2000) 132–187.
  38. J. Esfahani, C.K. Yoo, Feasibility study and performance assessment for the integration of a steam-injected gas turbine and thermal desalination system, Desalination, 332 (2014) 18–32.
  39. Y.S.H. Najjar, A.M. Abubaker, Indirect evaporative combined inlet air cooling with gas turbines for green power technology, Int. J. Refrig., 59 (2015) 235–250.
  40. B. Prasartkaew, Performance test of a small size LiBr-H2O absorption chiller computer modeling of a single-stage lithium bromide/water absorption refrigeration unit, Energy Procedia, 56 (2014) 487–497.
  41. H. Mokhtari, H. Hadiannasab, M. Mostafavi, A. Ahmadibeni, B. Shahriari, Determination of optimum geothermal Rankine cycle parameters utilizing, Energy, 102 (2016) 260–275.
  42. H. Hajabdollahi, Evaluation of cooling and thermal energy storage tanks in optimization of multi-generation system, Energy Storage, 4 (2015) 1–13.