References

1. G. Ozair, K.Z. Al-Sebaie, S.A. Al-Zahrany, H.S. Al-Subhi, Y.A. Abuayed, Dynamic Simulation and Thermodynamic Assessment of the High-Performance MED-TVC Plant at Marafiq-Yanbu, The International Desalination Association World Congress on Desalination and Water Reuse, Sao Paulo, Brazil, 2017.
2. M.A. Saroosh, S. Ahmed, O.A. Hamed, K.A. Al-Shail, S. Ihm, H. Chung, A.S. Al-Ghamdi, F.A. Abu-Derman, Techno- Economic Evaluation of Concentrated Solar Thermal (Heat Only) Assisted Satellite MED-TVC, International Desalination Association (IDA) World Congress, San Diego, USA, 2015.
3. B.K. Kim, Y.H. Jeong, High cooling water temperature effects on design and operational safety of NPPS in the Gulf region, Nucl. Eng. Technol., 45 (2013) 961–968.
4. M.M.A. Ibrahim, M.R. Badawy, A parametric study of the impact of the cooling water site specific conditions on the efficiency of a pressurized water reactor nuclear power plant, Int. J. Nucl. Energy, 2014 (2014) 569658, doi: 10.1155/2014/569658.
5. O. Boland, Thermal Power Generation, Department of Energy and Process Engineering, NTNU, 2010.
6. J.C. Hensley, Cooling Tower Fundamentals, 2nd ed., SPX® Cooling Technologies, 2009.
7. I.S. Al-Mutaz, I.A. Al-Anezi, Silica Removal During Lime Softening in Water Treatment Plant, International Conference on Water Resources and Arid Environment, King Saud University, Riyadh, Dec. 5–8, 2004.
8. ABCC—Arabian Bemco Contracting Company, Salboukh and Boweib Water Treatment Plants, 2015. Available at http://www. arabianbemco.com/images/Projects/ (Accessed: April 05, 2023).
9. Marley, Cooling Tower Index Information, Issue: 1, Section: Basics, Subject: Cooling Tower Performance—Basic Theory and Practice.
10. R. Stull, Wet-bulb temperature from relative humidity and air temperature, J. Appl. Meteorol. Climatol., 50 (2011) 2267–2269.
11. A. Ataei, M.H. Panjeshahi, M. Gharaie, Performance evaluation of counter-flow wet cooling towers using exergetic analysis, Trans. Can. Soc. Mech. Eng., 32 (2008) 499–511.
12. F. Afshari, H. Dehghanpour, A Review Study on Cooling Towers; Types, Performance and Application, ALKÜ Fen Bilimleri Derg. Özel Sayı, 2018.
13. B.A. Qureshi, S.M. Zubair, A complete model of wet cooling towers with fouling in fills, Appl. Therm. Eng., 26 (2006) 1982–1989.
14. A.W.H. Turnpenny, J. Coughlan, B. Ng, P. Crews, R.N. Bamber, P. Rowles, Cooling Water Options for the New Generation of Nuclear Power Stations in the UK, SC070015/SR3, Better Regulation Programme Evidence Directorate, Environmentg Agency, 2010.
15. Ramboll, North London Heat and Power Project—Cooling Plant Technology Options, Report Intended for North London Waste Authority, Ramboll, 2014.
16. W. Srisang, T. Sanpasertparnich, E. Quagraine, C. Bruce, S. Giannaris, D. Janowczyk, B. Jacobs, Heat rejection design for zero liquid discharge Shand coal-fired power station integrated with CO2 capture and storage, Int. J. Greenhouse Gas Control, 82 (2019) 86–97.
17. F. Asfand, P. Palenzuela, L. Roca, A. Caron, C.-A. Lemarié, J. Gillard, P. Turner, K. Patchigolla, Thermodynamic performance and water consumption of hybrid cooling system configurations for concentrated solar power plants, Sustainability, 12 (2020) 4739, doi: 10.3390/su12114739.
18. RCER—Royal Commission Environmental Regulations Vol. 1, Regulations and Standards, 2015.
19. L.M. Surhone, M.T. Timpledon, S.F. Marseken Souders, Brown Equation, VDM Publishing, 2010.
20. G. Towler, R. Sinnott, Chemical Engineering Design: Principles, Practice and Economics of Plant and Process Design, Butterworth-Heinemann, 2008.
21. A.M. Mahmoud, Y. Kim, R.B. Mansour, A. Al-Aithan, Y. Lee, S. Ahmed, H. Varshney, H. Chung, K. Bamardouf, O.A. Hamed, A. Al-Ghamdi, F.A. Abu Derman, Experimental analysis and techno-economic study of once through long tube MSF desalination plants, Desal. Water Treat., 73 (2017) 137–144.
22. W. Xiaoqing, N. Li, J. Peng, J. Cheng, J. Hu, M. Wang. Performance analyses of counter-flow closed wet cooling towers based on a simplified calculation method, Energies, 10 (2017) 282, doi: 10.3390/en10030282.