화학공학소재연구정보센터
검색결과 : 277건
No. Article
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