Design and behaviour estimate of a novel concentrated solar-driven power and desalination system using S–CO2 Brayton cycle and MSF technology

[1]  D. Tucker,et al.  High efficiencies with low fuel utilization and thermally integrated fuel reforming in a hybrid solid oxide fuel cell gas turbine system , 2020 .

[2]  Yong Cao,et al.  Design and preliminary performance analysis of a novel solar-gas combined cycle system , 2020 .

[3]  P. Hu,et al.  A comprehensive parametric study on integrated thermal and mechanical performances of molten-salt-based thermocline tank , 2020 .

[4]  P. Hu,et al.  Experimental and optical performances of a solar CPV device using a linear Fresnel reflector concentrator , 2020 .

[5]  Kody M. Powell,et al.  Hybrid concentrated solar power (CSP)-desalination systems: A review , 2019, Desalination.

[6]  N. Hilal,et al.  Reverse osmosis desalination: A state-of-the-art review , 2019, Desalination.

[7]  N. Hilal,et al.  Nuclear desalination: A state-of-the-art review , 2019, Desalination.

[8]  A. Ghoniem,et al.  Exergy loss based allocation method for hybrid renewable-fossil power plants applied to an integrated solar combined cycle , 2019, Energy.

[9]  P. Hu,et al.  Experimental study and optical analyses of a multi-segment plate (MSP) concentrator for solar concentration photovoltaic (CPV) system , 2019, Renewable Energy.

[10]  C. Turchi,et al.  Supercritical carbon dioxide power cycle design and configuration optimization to minimize levelized cost of energy of molten salt power towers operating at 650 °C , 2019, Solar Energy.

[11]  P. Hu,et al.  Thermodynamic and optical analyses of a hybrid solar CPV/T system with high solar concentrating uniformity based on spectral beam splitting technology , 2019, Energy.

[12]  Woo-Seung Kim,et al.  Performance and economic investigations of solar power tower plant integrated with direct contact membrane distillation system , 2018, Energy Conversion and Management.

[13]  Lun Jiang,et al.  Spectral beam splitting in hybrid PV/T parabolic trough systems for power generation , 2018 .

[14]  Enrico Drioli,et al.  Membrane technology in renewable-energy-driven desalination , 2018 .

[15]  Firdaus Basrawi,et al.  Thermal performance of gas turbine power plant based on exergy analysis , 2017 .

[16]  N. Rajasekar,et al.  A comprehensive review on solar PV maximum power point tracking techniques , 2017 .

[17]  Gonzalo Diarce,et al.  Design and feasibility of high temperature shell and tube latent heat thermal energy storage system for solar thermal power plants , 2016 .

[18]  Bartolomé Ortega-Delgado,et al.  Parametric study of a multi-effect distillation plant with thermal vapor compression for its integration into a Rankine cycle power block , 2016 .

[19]  Bartolomé Ortega-Delgado,et al.  Thermoeconomic comparison of integrating seawater desalination processes in a concentrating solar power plant of 5 MWe , 2016 .

[20]  Hyomin Jeong,et al.  Improved productivity of the MSF (multi-stage flashing) desalination plant by increasing the TBT (top brine temperature) , 2016 .

[21]  Xiaofang Cheng,et al.  Design and optical analysis of the band-focus Fresnel lens solar concentrator , 2016 .

[22]  Carmelo Mineo,et al.  MED parallel system powered by concentrating solar power (CSP). Model and case study: Trapani, Sicily , 2015 .

[23]  C. Frantz,et al.  Thermal Analysis of a Multi Effect Distillation Plant Powered by a Solar Tower Plant , 2015 .

[24]  Guillermo Zaragoza,et al.  Characterisation of the coupling of multi-effect distillation plants to concentrating solar power plants , 2015 .

[25]  H. Nezammahalleh Exergy analysis of DSG parabolic trough collectors for the optimal integration with a combined cycle , 2015 .

[26]  Li Xi Analysis of Life-cycle Levelized Cost of Electricity for Tower Solar Thermal Power , 2015 .

[27]  Hasimah Abdul Rahman,et al.  Historical development of concentrating solar power technologies to generate clean electricity efficiently – A review , 2015 .

[28]  Matthew D. Stuber,et al.  Pilot demonstration of concentrated solar-powered desalination of subsurface agricultural drainage water and other brackish groundwater sources , 2015 .

[29]  J. F. Mendes,et al.  Reverse osmosis powered by concentrating solar power (CSP): A case study for Trapani, Sicily , 2015 .

[30]  Dimityr Popov,et al.  Innovative solar augmentation of gas turbine combined cycle plants , 2014 .

[31]  Mohamed Darwish,et al.  Solar cogeneration power-desalting plant with assisted fuel , 2014 .

[32]  Julián Blanco,et al.  Performance of a 5 kWe Solar-only Organic Rankine Unit Coupled to a Reverse Osmosis Plant☆ , 2014 .

[33]  George Papadakis,et al.  Performance investigation of concentrating solar collectors coupled with a transcritical organic Rankine cycle for power and seawater desalination co-generation , 2013 .

[34]  Girish Kumar Singh,et al.  Solar power generation by PV (photovoltaic) technology: A review , 2013 .

[35]  Francisco J. Collado,et al.  A review of optimized design layouts for solar power tower plants with campo code , 2013 .

[36]  Wolfgang Polifke,et al.  Tecnoeconomic Analysis of Medium and Large-sacle Desalination Plants Driven by Concentrated Solar Systems in the Mena Region , 2013 .

[37]  Craig Turchi,et al.  Modeling multi effect distillation powered by CSP in TRNSYS , 2013 .

[38]  Stefan Will,et al.  Techno-economic analysis of combined concentrating solar power and desalination plant configurations in Israel and Jordan , 2012 .

[39]  Lourdes García-Rodríguez,et al.  Design recommendations for solar organic Rankine cycle (ORC)–powered reverse osmosis (RO) desalination , 2012 .

[40]  Julián Blanco,et al.  Simulation and evaluation of the coupling of desalination units to parabolic-trough solar power plants in the Mediterranean region , 2011 .

[41]  Julián Blanco,et al.  Assessment of different configurations for combined parabolic-trough (PT) solar power and desalinati , 2011 .

[42]  A. S. Nafey,et al.  Thermo-economic analysis of solar thermal power cycles assisted MED-VC (multi effect distillation-vapor compression) desalination processes , 2011 .

[43]  Alfons Kather,et al.  Optimised integration of post-combustion CO2 capture process in greenfield power plants , 2010 .

[44]  Henrik Thunman,et al.  Highly efficient electricity generation from biomass by integration and hybridization with combined cycle gas turbine (CCGT) plants for natural gas , 2010 .

[45]  Piyush Sabharwall,et al.  Engineering Database of Liquid Salt Thermophysical and Thermochemical Properties , 2010 .

[46]  Diego Téllez,et al.  Evaluation of technologies for a desalination operation and disposal in the Tularosa Basin, New Mexico , 2009 .

[47]  Catherine Charcosset,et al.  A review of membrane processes and renewable energies for desalination , 2009 .

[48]  Alfons Kather,et al.  Post-combustion CO2-capture from coal-fired power plants: Preliminary evaluation of an integrated chemical absorption process with piperazine-promoted potassium carbonate , 2008 .

[49]  Akili D. Khawaji,et al.  Advances in seawater desalination technologies , 2008 .

[50]  I. Luque-Heredia,et al.  Photovoltaic concentration at the onset of its commercial deployment , 2006 .