| 21 |
Cross effect between temperature and consolidation on the flow behavior of granular materials in thermal energy storage systems
Duran-Olivencia FJ, Espin MJ, Valverde JM
Powder Technology, 363, 135, 2020 |
| 22 |
A thermo-economic methodology to select sCO(2) power cycles for CSP applications
Crespi F, Sanchez D, Rodriguez JM, Gavagnin G
Renewable Energy, 147, 2905, 2020 |
| 23 |
The Ottana solar facility: dispatchable power from small-scale CSP plants based on ORC systems
Petrollese M, Cau G, Cocco D
Renewable Energy, 147, 2932, 2020 |
| 24 |
Transient evaluation of a soil-borehole thermal energy storage system
Baser T, McCartney JS
Renewable Energy, 147, 2582, 2020 |
| 25 |
Experimental analysis of heat coupling during TES based reverse cycle defrosting method for cascade air source heat pumps
Qu ML, Zhang R, Chen JB, Cheng YD, Zhao XD, Zhang TY, Li Z
Renewable Energy, 147, 35, 2020 |
| 26 |
Hybrid thermal energy storage with phase change materials for solar domestic hot water applications: Direct versus indirect heat exchange systems
Abdelsalam MY, Teamah HM, Lightstone MF, Cotton JS
Renewable Energy, 147, 77, 2020 |
| 27 |
Enhanced properties of diatomite-based composite phase change materials for thermal energy storage
Li CC, Wang MF, Xie BS, Ma H, Chen J
Renewable Energy, 147, 265, 2020 |
| 28 |
Preparation and characterization of a novel composite phase change material with double phase change points based on nanocapsules
Zhao MX, Zhang X, Kong XF
Renewable Energy, 147, 374, 2020 |
| 29 |
Experimental investigation on a MnCl2-SrCl2/NH3 thermochemical resorption heat storage system
Yan T, Kuai ZH, Wu SF
Renewable Energy, 147, 874, 2020 |
| 30 |
Performance analysis of Aquifer Thermal Energy Storage (ATES)
Fleuchaus P, Schuppler S, Godschalk B, Bakema G, Blum P
Renewable Energy, 146, 1536, 2020 |
