Energy and exergy analyses of modified solar still with coated hybrid nanomaterial on absorber plate

[1] Abdelal N(2017)Enhancement of pyramid solar still productivity using absorber plates made of carbon fiber/CNT-modified epoxy composites Desalination 419 117-124

[2] Taamneh Y(2022)Validation and CFD modeling of solar still with nanoparticle coating on absorber plate Mater Today Proc 63 673-679

[3] Bansal K(2020)Advanced solar still development: improving distilled water recovery and purity via graphene-enhanced surface modifiers Front Environ Sci 8 187-438

[4] Kumar R(2021)Enhancing the solar still output using micro/nano-particles of aluminum oxide at different concentrations: an experimental study, energy, exergy and economic analysis Sustain Mater Technol 29 433-191

[5] Krishna Mishra S(2020)A novel multilayer high temperature colored solar absorber coating based on high-entropy alloy MoNbHfZrTi: optimized preparation and chromaticity investigation Sol Energy Mater Sol Cells 209 185-288

[6] Kumar P(2017)Augmentation of a solar still distillate yield via absorber plate coated with black nanoparticles Alex Eng J 56 282-2532

[7] Sharma A(2019)Effect of water depth on a novel absorber plate of pyramid solar still coated with TiO2 nano black paint J Clean Prod 213 2528-967

[8] Baticados EJN(2021)A brief review on high-performance nano materials in solar desalination Mater Today Proc 44 961-87

[9] Capareda SC(2021)Review based on the absorber plate coating for solar air heater applications IOP Conf Ser: Mater Sci Eng 1116 76-4933

[10] Liu S(2021)Numerical investigation of performance analysis of Triangular Solar air heater using Computational Fluid Dynamics (CFD) IOP Conf Ser: Mater Sci Eng 1116 4929-913

[1] Abdelal N(2017)Enhancement of pyramid solar still productivity using absorber plates made of carbon fiber/CNT-modified epoxy composites Desalination 419 117-124

[2] Taamneh Y(2022)Validation and CFD modeling of solar still with nanoparticle coating on absorber plate Mater Today Proc 63 673-679

[3] Bansal K(2020)Advanced solar still development: improving distilled water recovery and purity via graphene-enhanced surface modifiers Front Environ Sci 8 187-438

[4] Kumar R(2021)Enhancing the solar still output using micro/nano-particles of aluminum oxide at different concentrations: an experimental study, energy, exergy and economic analysis Sustain Mater Technol 29 433-191

[5] Krishna Mishra S(2020)A novel multilayer high temperature colored solar absorber coating based on high-entropy alloy MoNbHfZrTi: optimized preparation and chromaticity investigation Sol Energy Mater Sol Cells 209 185-288

[6] Kumar P(2017)Augmentation of a solar still distillate yield via absorber plate coated with black nanoparticles Alex Eng J 56 282-2532

[7] Sharma A(2019)Effect of water depth on a novel absorber plate of pyramid solar still coated with TiO2 nano black paint J Clean Prod 213 2528-967

[8] Baticados EJN(2021)A brief review on high-performance nano materials in solar desalination Mater Today Proc 44 961-87

[9] Capareda SC(2021)Review based on the absorber plate coating for solar air heater applications IOP Conf Ser: Mater Sci Eng 1116 76-4933

[10] Liu S(2021)Numerical investigation of performance analysis of Triangular Solar air heater using Computational Fluid Dynamics (CFD) IOP Conf Ser: Mater Sci Eng 1116 4929-913