Thermal seawater desalination for irrigation purposes in a water-stressed region: Emerging value tensions in full-scale implementation

Thermal seawater desalination for irrigation purposes in a water-stressed region: Emerging value tensions in full-scale implementation

Water scarcity in arid regions has driven the spread of desalination. These systems contribute to water access but come at an intensive energy cost, and lead to brine discharge and associated environmental impacts. This work aims to investigate emerging societal issues and tensions when developing a...

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Bibliographic Details
Published in:Desalination Vol. 593; p. 118213
Main Authors: Gamboa, Gonzalo, Palenzuela, Patricia, Ktori, Rodoula, Alarcón-Padilla, Diego C., Zaragoza, Guillermo, Fayad, Samar, Xevgenos, Dimitros, Palmeros Parada, Mar
Format: Journal Article
Language:English
Published: Elsevier B.V 05-01-2025
Subjects:
Circular economy
Context-sensitive design
Design for values
Responsible Innovation
Thermal seawater desalination
CSP
Design for values
LCOWNR
Thermal seawater desalination
GHG
Context-sensitive design
CAPEX
MED
Responsible Innovation
LCOE
SEC
OPEX
GDP
Circular economy
ZLD
Th Cryst
CIEMAT
NF
LCOW
LCS
RO
SAM
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Summary:Water scarcity in arid regions has driven the spread of desalination. These systems contribute to water access but come at an intensive energy cost, and lead to brine discharge and associated environmental impacts. This work aims to investigate emerging societal issues and tensions when developing and implementing a thermal desalination system to produce irrigation water in the South of Spain. This has been done in a demonstration system for solar desalination able to recover water and salts from desalination brine. For this purpose, a context-sensitive design exercise has been implemented. First, tensions between social values expressed by diverse stakeholders have been identified. Then, a set of technical scenarios for the full-scale implementation of the system were designed and evaluated, comparing them to conventional membrane desalination. The analysis indicates high economic and energy costs to avoid the environmental impacts of increasing water production. •Thermal technologies allow achieving zero liquid discharge in seawater desalination•Zero liquid discharge entails larger land use inland•Thermal desalination shows lower CO2 emissions per cubic meter of desalinated water•Thermal desalination inland shows larger costs due to seawater transport and equipment•Recovering resources from brine increases economic viability of thermal desalination
ISSN:0011-9164
DOI:10.1016/j.desal.2024.118213