21 |
Solar ray collection rate fluctuation analysis with Monte Carlo Ray Tracing method for space solar power satellite Ji XF, Zhang YQ, Li XL, Fan GH, Li M Solar Energy, 185, 235, 2019 |
22 |
Three-dimensional modelling and analysis of solar radiation absorption in porous volumetric receivers Barreto G, Canhoto P, Collares-Pereira M Applied Energy, 215, 602, 2018 |
23 |
An optimized Monte Carlo ray tracing optical simulation model and its applications to line-focus concentrating solar collectors Fan M, You SJ, Xia JB, Zheng WD, Zhang H, Liang HB, Li XL, Li BJ Applied Energy, 225, 769, 2018 |
24 |
Novel optical efficiency formulas for parabolic trough solar collectors: Computing method and applications Cheng ZD, Zhao XR, He YL Applied Energy, 224, 682, 2018 |
25 |
A comprehensive model of a cavity receiver to achieve uniform heat flux using air-carbon particles mixture Jin YB, Fang JB, Wei JJ, Wang XH Applied Energy, 220, 616, 2018 |
26 |
Numerical simulation of a concentrating photovoltaic-thermal solar system combined with thermoelectric modules by coupling Finite Volume and Monte Carlo Ray-Tracing methods Shadmehri M, Narei H, Ghasempour R, Shafii MB Energy Conversion and Management, 172, 343, 2018 |
27 |
Photon-absorption-based explanation of ultrasonic-assisted solar photochemical splitting of water to improve hydrogen production Cheng ZM, Wang FQ, Liang HX, Hu SP, Lin B, Tan JY, Li HY International Journal of Hydrogen Energy, 43(31), 14439, 2018 |
28 |
Numerical analysis of the thermal and thermodynamic performance of a parabolic trough solar collector using SWCNTs-Therminol (R) VP-1 nanofluid Mwesigye A, Yilmaz IH, Meyer JP Renewable Energy, 119, 844, 2018 |
29 |
A novel optical optimization model for linear Fresnel reflector concentrators Cheng ZD, Zhao XR, He YL, Qiu Y Renewable Energy, 129, 486, 2018 |
30 |
Design and performance evaluation of a high-temperature cavity receiver for a 2-stage dish concentrator Yang S, Wang J, Lund PD, Jiang C, Huang BK Solar Energy, 174, 1126, 2018 |