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Concentrating solar power and desali...

Alarcon-Padilla, Diego-Cesar.

Concentrating solar power and desalination plantsengineering and economics of coupling multi-effect distillation and solar plants /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Concentrating solar power and desalination plantsby Patricia Palenzuela, Diego-Cesar Alarcon-Padilla, Guillermo Zaragoza.
Reminder of title:	engineering and economics of coupling multi-effect distillation and solar plants /
Author:	Palenzuela, Patricia.
other author:	Alarcon-Padilla, Diego-Cesar.
Published:	Cham :Springer International Publishing :2015.
Description:	vii, 172 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
Subject:	Solar saline water conversion plants.
Online resource:	http://dx.doi.org/10.1007/978-3-319-20535-9
ISBN:	9783319205359$q(electronic bk.)

Concentrating solar power and desalination plantsengineering and economics of coupling multi-effect distillation and solar plants /
Palenzuela, Patricia.

Concentrating solar power and desalination plantsengineering and economics of coupling multi-effect distillation and solar plants /[electronic resource] :by Patricia Palenzuela, Diego-Cesar Alarcon-Padilla, Guillermo Zaragoza. - Cham :Springer International Publishing :2015. - vii, 172 p. :ill., digital ;24 cm.

State of the Art of Desalination Processes -- Combined fresh water and power production-State of art -- Steady-state modelling of a Low-temperature Multi effect Distillation Plan -- Steady-state modelling of a Parabolic-Trough Concentrating Solar Power Plant -- Thermo-economic analysis.

The first available thermo-economic analyses of Concentrating Solar Power and Desalination (CSP+D) Plants, using real figures from operating plants. Includes all the equations used in the modeling of each component, creating an invaluable template for implementing similar models. Demonstrates modeling and validation of a Multi-effect Distillation (MED) Plant with increased energy recovery and enhanced thermal efficiency. Extended parametric analysis helps readers decide when integrating a Thermal Desalination Plant will yield better results than connecting a Reverse Osmosis Plant. This ground-breaking book demonstrates how two key concerns in many communities across the globe- power and water- can be simultaneously addressed through the coupling of Concentrating Solar Power and Desalination (CSP+D) plants. The book provides a detailed evaluation of the integration of Multi-effect Distillation Plants into CSP plants based on Parabolic Trough Solar Collectors (PT-CSP+MED), as compared to independent water and power production through Reverse Osmosis unit connection to a CSP plant (CSP+RO) Through this compare and contrast method of analysis, the author establish guidelines to assist in identifying cases wherein PT-CSP+MED systems provide superior economic and thermodynamic benefits. The text describes the efficiencies and challenges of PT-CSP power generation in four different desalination plant scenarios, including detailed comparative thermodynamic efficiency analyses of several currently operating CSP+D systems. These findings are then placed in practical context through a complete thermo-economic analysis of two diverse potential sites, ascertaining the most viable CSP+D system in each region, as informed by actual operating conditions, meteorological data and real cost figures for each location.

ISBN: 9783319205359$q(electronic bk.)

Standard No.: 10.1007/978-3-319-20535-9doiSubjects--Topical Terms:

731471
Solar saline water conversion plants.

LC Class. No.: TD479.7

Dewey Class. No.: 628.16725

Concentrating solar power and desalination plantsengineering and economics of coupling multi-effect distillation and solar plants /
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245 1 0 $a Concentrating solar power and desalination plants $h [electronic resource] : $b engineering and economics of coupling multi-effect distillation and solar plants / $c by Patricia Palenzuela, Diego-Cesar Alarcon-Padilla, Guillermo Zaragoza.
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505 0 $a State of the Art of Desalination Processes -- Combined fresh water and power production-State of art -- Steady-state modelling of a Low-temperature Multi effect Distillation Plan -- Steady-state modelling of a Parabolic-Trough Concentrating Solar Power Plant -- Thermo-economic analysis.
520 $a The first available thermo-economic analyses of Concentrating Solar Power and Desalination (CSP+D) Plants, using real figures from operating plants. Includes all the equations used in the modeling of each component, creating an invaluable template for implementing similar models. Demonstrates modeling and validation of a Multi-effect Distillation (MED) Plant with increased energy recovery and enhanced thermal efficiency. Extended parametric analysis helps readers decide when integrating a Thermal Desalination Plant will yield better results than connecting a Reverse Osmosis Plant. This ground-breaking book demonstrates how two key concerns in many communities across the globe- power and water- can be simultaneously addressed through the coupling of Concentrating Solar Power and Desalination (CSP+D) plants. The book provides a detailed evaluation of the integration of Multi-effect Distillation Plants into CSP plants based on Parabolic Trough Solar Collectors (PT-CSP+MED), as compared to independent water and power production through Reverse Osmosis unit connection to a CSP plant (CSP+RO) Through this compare and contrast method of analysis, the author establish guidelines to assist in identifying cases wherein PT-CSP+MED systems provide superior economic and thermodynamic benefits. The text describes the efficiencies and challenges of PT-CSP power generation in four different desalination plant scenarios, including detailed comparative thermodynamic efficiency analyses of several currently operating CSP+D systems. These findings are then placed in practical context through a complete thermo-economic analysis of two diverse potential sites, ascertaining the most viable CSP+D system in each region, as informed by actual operating conditions, meteorological data and real cost figures for each location.
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700 1 $a Zaragoza, Guillermo. $3 731470
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