| 51 |
An experimental evaluation of thermal behavior of the building envelope using macroencapsulated PCM for energy savings
Rathore PKS, Shukla SK
Renewable Energy, 149, 1300, 2020 |
| 52 |
Discharge of a composite metal foam/phase change material to air heat exchanger for a domestic thermal storage unit
Sardari PT, Giddings D, Grant D, Gillott M, Walker GS
Renewable Energy, 148, 987, 2020 |
| 53 |
Solar-driven melting dynamics in a shell and tube thermal energy store: An experimental analysis
Egea A, Solano JP, Perez-Garcia J, Garcia A
Renewable Energy, 154, 1044, 2020 |
| 54 |
Thermal energy storage performance of a three-PCM cascade tank in a high-temperature packed bed system
Mao QJ, Zhang YM
Renewable Energy, 152, 110, 2020 |
| 55 |
Melting in a vertical pipe due to asymmetric heating
Nimrodi Y, Kozak Y, Portnikov D, Ziskind G
Renewable Energy, 152, 179, 2020 |
| 56 |
Climate response of a BiPV facade system enhanced with latent PCM-based thermal energy storage
Curpek J, Cekon M
Renewable Energy, 152, 368, 2020 |
| 57 |
A simulation study on performance improvement of solar assisted heat pump hot water system by novel controllable crystallization of supercooled PCMs
Kutlu C, Zhang YN, Elmer T, Su YH, Riffat S
Renewable Energy, 152, 601, 2020 |
| 58 |
Thermal performance analysis of thermocline combined sensible-latent heat storage system using cascaded-layered PCM designs for medium temperature applications
Ahmed N, Elfeky KE, Lu L, Wang QW
Renewable Energy, 152, 684, 2020 |
| 59 |
A comparison between passive and active PCM systems applied to buildings
Gholamibozanjani G, Farid M
Renewable Energy, 162, 112, 2020 |
| 60 |
Optimal control of natural ventilation as passive cooling strategy for improving the energy performance of building envelope with PCM integration
Piselli C, Prabhakar M, de Gracia A, Saffari M, Pisello AL, Cabeza LF
Renewable Energy, 162, 171, 2020 |
