Nanomaterials for solar energy capture and steam generation
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Publisher
Elsevier
Reference34 articles.
1. A review of studies using nanofluids in flat-plate and direct absorption solar collectors;Raj;Renew. Sustain. Energy Rev.,2018
2. Experimental performance assessment of a new flat-plate solar air collector having textile fabric as absorber using energy and exergy analyses;Ural;Energy,2019
3. Performance of solar mid-temperature evacuated tube collector for steam generation;Xu;Sol. Energy,2019
4. Performance enhancement of solar energy systems using nanofluids: an updated review;Sahin;Renew. Energy,2020
5. Experimental comparison of optical properties of nanofluid and metal foam for using in direct absorption solar collectors;Valizade;Sol. Energy Mater. Sol. Cell,2019
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2. Performance analysis of nanofluid-based water desalination system using integrated solar still, flat plate and parabolic trough collectors;Journal of the Brazilian Society of Mechanical Sciences and Engineering;2022-08-24
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