TY - JOUR
T1 - Recent developments in solar-powered membrane distillation for sustainable desalination
AU - Jawed, Ahmad S.
AU - Nassar, Lobna
AU - Hegab, Hanaa M.
AU - van der Merwe, Riaan
AU - Al Marzooqi, Faisal
AU - Banat, Fawzi
AU - Hasan, Shadi W.
N1 - Publisher Copyright:
© 2024 The Authors
PY - 2024/6/15
Y1 - 2024/6/15
N2 - The freshwater shortage continues to be one of the greatest challenges affecting our planet. Although traditional membrane distillation (MD) can produce clean water regardless of climatic conditions, the process wastes a lot of energy. The technique of solar-powered membrane distillation (SPMD) has received a lot of interest in the past decade, thanks to the development of photothermal materials. SPMD is a promising replacement for the traditional MD based on fossil fuels, as it can prevent the harmful effects of emissions on the environment. Integrating green solar energy with MD can reduce the cost of the water purification process and secure freshwater production in remote areas. At this point, it is important to consider the most current progress of the SPMD system and highlight the challenges and prospects of this technology. Based on this, the background, recent advances, and principles of MD and SPMD, their configurations and mechanisms, fabrication methods, advantages, and current limitations are discussed. Detailed comparisons between SPMD and traditional MD, assessments of various standards for incorporating photothermal materials with desirable properties, discussions of desalination and other applications of SPMD and MD, and energy consumption rates are also covered. The final section addresses the potential of SPMD to outperform traditional desalination technology while improving water production without requiring a significant amount of electrical or high-grade thermal energy.
AB - The freshwater shortage continues to be one of the greatest challenges affecting our planet. Although traditional membrane distillation (MD) can produce clean water regardless of climatic conditions, the process wastes a lot of energy. The technique of solar-powered membrane distillation (SPMD) has received a lot of interest in the past decade, thanks to the development of photothermal materials. SPMD is a promising replacement for the traditional MD based on fossil fuels, as it can prevent the harmful effects of emissions on the environment. Integrating green solar energy with MD can reduce the cost of the water purification process and secure freshwater production in remote areas. At this point, it is important to consider the most current progress of the SPMD system and highlight the challenges and prospects of this technology. Based on this, the background, recent advances, and principles of MD and SPMD, their configurations and mechanisms, fabrication methods, advantages, and current limitations are discussed. Detailed comparisons between SPMD and traditional MD, assessments of various standards for incorporating photothermal materials with desirable properties, discussions of desalination and other applications of SPMD and MD, and energy consumption rates are also covered. The final section addresses the potential of SPMD to outperform traditional desalination technology while improving water production without requiring a significant amount of electrical or high-grade thermal energy.
KW - Desalination
KW - Membrane technology
KW - Photothermal membranes
KW - Solar-powered membrane distillation
KW - Sustainable water treatment
UR - http://www.scopus.com/inward/record.url?scp=85193810992&partnerID=8YFLogxK
U2 - 10.1016/j.heliyon.2024.e31656
DO - 10.1016/j.heliyon.2024.e31656
M3 - Review article
AN - SCOPUS:85193810992
SN - 2405-8440
VL - 10
JO - Heliyon
JF - Heliyon
IS - 11
M1 - e31656
ER -