Cutillas, C. G.Ruiz, J.Asfand, FaisalPatchigolla, KumarLucas, M.2021-10-252021-10-252021-10-08Cutillas CG, Ruiz J, Asfand F, et al., (2021) Energetic, exergetic and environmental (3E) analyses of different cooling technologies (wet, dry and hybrid) in a CSP thermal power plant. Case Studies in Thermal Engineering, Volume 28, December 2021, Article number 1015452214-157Xhttps://doi.org/10.1016/j.csite.2021.101545http://dspace.lib.cranfield.ac.uk/handle/1826/17200This paper deals with the comparison of three condensation systems for the heat dissipation in a solar power plant: wet system, dry system and hybrid system based on the pre-cooling of the air in an adiabatic panel located in the entrance section of a dry system. Energy, exergy and environmental (3E) analyses were conducted to assess the influence of the condensation system on the power plant performance. The Andasol I plant located in Granada (Spain), with a net power capacity of 50 MWe, is used as a real reference case of a concentrated solar power station. The cycle refrigerated with a cooling tower achieves a lower pressure of condensation, followed by the hybrid and dry system. As the pressure decreases, the efficiency of the cycle increases and also the power generated, being 12.60% in the case of cooling tower and 4.65% in the hybrid system with respect the dry condenser. A 71.74% of water usage savings by the hybrid system carries a 7.06% of net power production with regard of the cooling tower configuration. The exergetic performance of the plant is 73.77% for the wet system, 69.21% for the hybrid and 68.46% for the dry system.enAttribution-NonCommercial-NoDerivatives 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-nd/4.0/Solar thermal power plantCondenserHybrid systemExergyWater consumptionArticle