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Ultra-high freshwater production in multistage solar membrane distillation via waste heat injection to condenser

Primož Poredoš, Jintong Gao, Shan He, Yu Jie, Zhao Shao, Zhenyuan Xu, R.Z. Wang

2024Nature Communications47 citationsDOIOpen Access PDF

Abstract

Passive solar membrane distillation (MD) is an emerging technology to alleviate water scarcity. Recently, its performance has been enhanced by multistage design, though the gains are marginal due to constrained temperature and vapor pressure gradients across the device. This makes condenser cooling enhancement a questionable choice. We argue that condenser heating could suppress the marginal effect of multistage solar MD by unlocking the moisture transport limit in all distillation stages. Here, we propose a stage temperature boosting (STB) concept that directs low-temperature heat to the condensers in the last stages, enhancing moisture transport across all stages. Through STB in the last two stages with a heat flux of 250 W m−2, a stage-averaged distillation flux of 1.13 L m−2 h−1 S−1 was demonstrated using an 8-stage MD device under one-sun illumination. This represents an 88% enhancement over the state-of-the-art 10-stage solar MD devices. More notably, our analysis indicates that 16-stage STB-MD devices driven by solar energy and waste heat can effectively compete with existing photovoltaic reverse osmosis (PV-RO) systems, potentially elevating freshwater production with low-temperature heat sources. Multistage solar membrane distillation is facing challenges with current system designs due to constrained temperature and vapor pressure gradients. Here, the authors propose a stage temperature-boosting concept that enhances moisture transport with up to 88% improvement in overall distillate flux.

Topics & Concepts

Condenser (optics)Membrane distillationDistillationWaste heatEnvironmental scienceProduction (economics)Waste managementMaterials scienceMultiple-effect distillationMembraneProcess engineeringChemistryDesalinationChromatographyVacuum distillationThermodynamicsHeat exchangerEngineeringPhysicsBiochemistryLight sourceMacroeconomicsOpticsEconomicsMembrane Separation TechnologiesSolar-Powered Water Purification MethodsMembrane-based Ion Separation Techniques