21 |
Effect of regeneration heat and energy storage on thermal drying performance in a hardwood solar kiln Khouya A Renewable Energy, 155, 783, 2020 |
22 |
Development of a low-cost wind-powered active solar dryer integrated with glycerol as thermal storage Ndukwu MC, Onyenwigwe D, Abam FI, Eke AB, Dirioha C Renewable Energy, 154, 553, 2020 |
23 |
Efficacy of forced condensation and forced evaporation with thermal energy storage material on square pyramid solar still Modi KV, Nayi KH Renewable Energy, 153, 1307, 2020 |
24 |
A comprehensive study on thermal storage characteristics of nano-CeO2 embedded phase change material and its influence on the performance of evacuated tube solar water heater Kumar PM, Mylsamy K Renewable Energy, 162, 662, 2020 |
25 |
Effect of the thermal storage dimensions on the performances of solar photovoltaic-thermal systems Cirrincione L, Malara C, Marino C, Nucara A, Peri G, Pietrafesa M Renewable Energy, 162, 2004, 2020 |
26 |
Thermal analysis of a solar dryer equipped with PTSC and PCM using experimental and numerical methods Alimohammadi Z, Akhijahani HS, Salami P Solar Energy, 201, 157, 2020 |
27 |
Thermal and electrical performance of a novel photovoltaic-thermal road Xiang B, Yuan YP, Ji YS, Cao XL, Zhou JZ Solar Energy, 199, 1, 2020 |
28 |
The application of solar-to-thermal conversion phase change material in novel solar water heating system Xiao QQ, Can JH, Zhang YX, Li L, Xu T, Yuan WH Solar Energy, 199, 484, 2020 |
29 |
Assessment of energy and cost analysis of packed bed and phase change material thermal energy storage systems for the solar energy-assisted drying process Atalay H Solar Energy, 198, 124, 2020 |
30 |
Experimental study on a novel hybrid system of active composite PCM wall and solar thermal system for clean heating supply in winter Kong XF, Wang L, Li H, Yuan GP, Yao CQ Solar Energy, 195, 259, 2020 |