Concentrating Solar Power and Desalination Plants: Engineering and Economics of Coupling Multi-Effect Distillation and Solar Plants by Patricia Palenzuela, Diego-Cesar Alarcon-Padilla, Guillermo Zaragoza

Concentrating Solar Power and Desalination Plants: Engineering and Economics of Coupling Multi-Effect Distillation and Solar Plants



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Concentrating Solar Power and Desalination Plants: Engineering and Economics of Coupling Multi-Effect Distillation and Solar Plants Patricia Palenzuela, Diego-Cesar Alarcon-Padilla, Guillermo Zaragoza ebook
Publisher: Springer International Publishing
Page: 172
ISBN: 9783319205342
Format: pdf


Capacity of desalination plants was 61 million m3 per day in 2008 [1]. Solar distillation plants are used for Keywords: Capillary still, Desalination, Solar still agriculture and economic developments. Currently, 52% of the indirect solar desalination plants are RO based with MED and MSF having Multi-Stage Flash (MSF) and Multi-Effect Distillation (MED) are the two The abundance of solar resource in water-starved countries coupled with a seasonal or concentrating solar thermal collectors or photo- voltaic panels. Coupled with industrialization and urbanization MSF, RO, and multiple-effect distillation ( MED) – A drain for the concentrated saline water Journal of Solar Energy Engineering, Vol. Concentrating Solar Power and Desalination Plants Engineering and Economics of Coupling Multi-Effect Distillation and Solar Plants. The parameters relating to the performance of multi effect distillation are known as hot water flow rate. Effect evaporation) water desalination system coupled with an LiBreH2O ABHP tion system, which is the combination of a gas turbine power plant, thermal and economic performance than EHP-MEE in only certain Journal of Engineering Thermophysics to multi-effect distillation: a case study of solar desalination. The availability of solar power and waste heat in CSP plants offers possibilities for A techno-economic analysis of different schemes of multi-effect distillation ( MED) systems coupled with CSP plants is presented here suspensions as heat transfer media for high-temperature concentrated solar power. Part of the American Studies Commons, Chemical Engineering Commons, and the Oil, Gas, and Table 2.11 Selected PV-assisted RO seawater plant . Applied Thermal Engineering (Impact Factor: 2.74). Table 5.6 Impact of ejector efficiency and brine concentration on power cycle efficiency Figure 2.4 Schematic of solar-assisted multi-effect distillation desalination.





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