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The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review

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The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review. / Farabi, S.N.; Habib, K.; Mim, M. et al.
In: Results in Engineering, Vol. 23, 102649, 30.09.2024.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Farabi, SN, Habib, K, Mim, M, Zaed, MA, Ali, SA, Younas, M & Saidur, R 2024, 'The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review', Results in Engineering, vol. 23, 102649. https://doi.org/10.1016/j.rineng.2024.102649

APA

Farabi, S. N., Habib, K., Mim, M., Zaed, M. A., Ali, S. A., Younas, M., & Saidur, R. (2024). The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review. Results in Engineering, 23, Article 102649. https://doi.org/10.1016/j.rineng.2024.102649

Vancouver

Farabi SN, Habib K, Mim M, Zaed MA, Ali SA, Younas M et al. The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review. Results in Engineering. 2024 Sept 30;23:102649. Epub 2024 Aug 5. doi: 10.1016/j.rineng.2024.102649

Author

Farabi, S.N. ; Habib, K. ; Mim, M. et al. / The future of solar-driven interfacial steam generation for sustainable water desalination : Drivers, challenges, and opportunities-review. In: Results in Engineering. 2024 ; Vol. 23.

Bibtex

@article{d56df5345e3f4230b8e19f7a3993b480,
title = "The future of solar-driven interfacial steam generation for sustainable water desalination: Drivers, challenges, and opportunities-review",
abstract = "The global demand for freshwater increased keep interest in water desalination technology. In recent past, solar thermal desalination emerged as a promising technique to water desalination. This review provides an extensive analysis of various solar thermal desalination techniques, including steam generation systems, their mechanisms, structures, and the role of different nanomaterials in enhancing desalination efficiency. We critically analyzed recent studies, focusing on process performance, benefits, limitations, economic viability, and environmental impact. The advantages of solar thermal desalination, such as sustainability, renewability, fossil fuel independence, decentralized water production, and suitability for remote locations, are discussed. We also discussed the materials for desalination based on material's water-transport capability, salt resistance, photothermal conversion efficiency and. Additionally, we provided insights into design principles and thermal management to enhance efficiency, reduce costs, and ensure sustainable freshwater production. This review will provide a guideline facilitate the development of sustainable solar thermal desalination technologies by utilizing existing knowledge and identifying research gaps, promoting the integration of renewable energy and water production for a resilient, water-secure future.",
author = "S.N. Farabi and K. Habib and M. Mim and M.A. Zaed and S.A. Ali and M. Younas and R. Saidur",
note = "Export Date: 15 August 2024",
year = "2024",
month = sep,
day = "30",
doi = "10.1016/j.rineng.2024.102649",
language = "English",
volume = "23",
journal = "Results in Engineering",
issn = "2590-1230",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - The future of solar-driven interfacial steam generation for sustainable water desalination

T2 - Drivers, challenges, and opportunities-review

AU - Farabi, S.N.

AU - Habib, K.

AU - Mim, M.

AU - Zaed, M.A.

AU - Ali, S.A.

AU - Younas, M.

AU - Saidur, R.

N1 - Export Date: 15 August 2024

PY - 2024/9/30

Y1 - 2024/9/30

N2 - The global demand for freshwater increased keep interest in water desalination technology. In recent past, solar thermal desalination emerged as a promising technique to water desalination. This review provides an extensive analysis of various solar thermal desalination techniques, including steam generation systems, their mechanisms, structures, and the role of different nanomaterials in enhancing desalination efficiency. We critically analyzed recent studies, focusing on process performance, benefits, limitations, economic viability, and environmental impact. The advantages of solar thermal desalination, such as sustainability, renewability, fossil fuel independence, decentralized water production, and suitability for remote locations, are discussed. We also discussed the materials for desalination based on material's water-transport capability, salt resistance, photothermal conversion efficiency and. Additionally, we provided insights into design principles and thermal management to enhance efficiency, reduce costs, and ensure sustainable freshwater production. This review will provide a guideline facilitate the development of sustainable solar thermal desalination technologies by utilizing existing knowledge and identifying research gaps, promoting the integration of renewable energy and water production for a resilient, water-secure future.

AB - The global demand for freshwater increased keep interest in water desalination technology. In recent past, solar thermal desalination emerged as a promising technique to water desalination. This review provides an extensive analysis of various solar thermal desalination techniques, including steam generation systems, their mechanisms, structures, and the role of different nanomaterials in enhancing desalination efficiency. We critically analyzed recent studies, focusing on process performance, benefits, limitations, economic viability, and environmental impact. The advantages of solar thermal desalination, such as sustainability, renewability, fossil fuel independence, decentralized water production, and suitability for remote locations, are discussed. We also discussed the materials for desalination based on material's water-transport capability, salt resistance, photothermal conversion efficiency and. Additionally, we provided insights into design principles and thermal management to enhance efficiency, reduce costs, and ensure sustainable freshwater production. This review will provide a guideline facilitate the development of sustainable solar thermal desalination technologies by utilizing existing knowledge and identifying research gaps, promoting the integration of renewable energy and water production for a resilient, water-secure future.

U2 - 10.1016/j.rineng.2024.102649

DO - 10.1016/j.rineng.2024.102649

M3 - Journal article

VL - 23

JO - Results in Engineering

JF - Results in Engineering

SN - 2590-1230

M1 - 102649

ER -