Titlebook: Concentrating Solar Power and Desalination Plants; Engineering and Econ Patricia Palenzuela,Diego-César Alarcón-Padilla,Gu Book 2015 Spring

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Steady-State Modelling of a Low-Temperature Multi-effect Distillation Plant,LT-MED) plant. The model was developed by taking into consideration the same design and operational characteristics as the pilot multi-effect distillation (MED) plant at Plataforma Solar de Almería, in the southeast of Spain. The model has been validated, comparing the results of the model with the

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Steady-State Modelling of a Parabolic-Trough Concentrating Solar Power Plant,ling of the solar field itself is explained first?and then the power cycle, consisting of a reheat Rankine cycle, with steam as the working fluid. This power cycle will be used subsequently to be coupled to a desalination plant, creating what is known as a dual-purpose solar power/water cogeneration

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Integration of a Desalination Plant into a Concentrating Solar Power Plant,. The systems chosen for this study combine a Concentrating Solar Power plant using parabolic-trough collector technology for electricity generation with various desalination plants, giving rise to what is known as a parabolic-trough concentrating solar power and desalination (PT-CSP?+?D) plant. The

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Techno-economic Analysis,his approach deals with a simulation-based analysis that allows estimation of overall efficiency over a wide range of boundary conditions to determine which cogeneration system is the most optimal in terms of capital cost (overall efficiency is directly related to the solar field size required). The

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Topics in Applied Macrodynamic Theory the water scarcity problems and the depletion of fossil fuels. Most of the regions facing fresh water shortages have high insolation levels and are located close to the sea, with more than 70?% of the world population living in a 70?km strip bordering the sea. Therefore, the use of solar energy for

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Topics in Applied Macrodynamic TheoryLT-MED) plant. The model was developed by taking into consideration the same design and operational characteristics as the pilot multi-effect distillation (MED) plant at Plataforma Solar de Almería, in the southeast of Spain. The model has been validated, comparing the results of the model with the

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