21 |
Experimental correlation of natural convection losses from a scale-model solar cavity receiver with non-isothermal surface temperature distribution Abbasi-Shavazi E, Torres JF, Hughes G, Pye J Solar Energy, 198, 355, 2020 |
22 |
Development of a clear-sky model to determine circumsolar irradiance using widely available solar radiation data Abreu EFM, Canhoto P, Costa MJ Solar Energy, 205, 88, 2020 |
23 |
Experimental investigation of the performance of a shell-and-tube particle-to-air heat exchanger Alaqel S, El-Leathy A, Al-Ansary H, Djajadiwinata E, Saleh N, Danish S, Saeed R, Alswaiyd A, Al-Suhaibani Z, Jeter S, Al-Balawi A, Al-Harthi F Solar Energy, 204, 561, 2020 |
24 |
Steady-state off-design modeling of the supercritical carbon dioxide recompression cycle for concentrating solar power applications with two-tank sensible-heat storage Neises T Solar Energy, 212, 19, 2020 |
25 |
Annual simulation of photovoltaic retrofits within existing parabolic trough concentrating solar powerplants Goel N, O'Hern H, Orosz M, Otanicar T Solar Energy, 211, 600, 2020 |
26 |
Experimental demonstration and analysis of a CSP plant with molten salt heat transfer fluid in parabolic troughs Giaconia A, Iaquaniello G, Metwally AA, Caputo G, Balog I Solar Energy, 211, 622, 2020 |
27 |
Analysis of tubular receivers for concentrating solar tower systems with a range of working fluids, in exergy-optimised flow-path configurations Zheng MG, Zapata J, Asselineau CA, Coventry J, Pye J Solar Energy, 211, 999, 2020 |
28 |
Thermo-economic optimization of an air driven supercritical CO2 Brayton power cycle for concentrating solar power plant with packed bed thermal energy storage Trevisan S, Guedez R, Laumert B Solar Energy, 211, 1373, 2020 |
29 |
A non-intrusive optical (NIO) approach to characterize heliostats in utility-scale power tower plants: Methodology and in-situ validation Mitchell RA, Zhu GD Solar Energy, 209, 431, 2020 |
30 |
Performance enhancement of cavity receivers with spillage skirts and secondary reflectors in concentrated solar dish and tower systems Wang S, Asselineau CA, Wang Y, Pye J, Coventry J Solar Energy, 208, 708, 2020 |