91 |
Structure, morphology, and magnetic properties of NiFe2O4 powder prepared by molten salt method Liu JX, Yang H, Xue XX Powder Technology, 355, 708, 2019 |
92 |
Dynamic simulation of steam generation system in solar tower power plant Zhang Q, Wang ZM, Du XZ, Yu G, Wu HW Renewable Energy, 135, 866, 2019 |
93 |
Molecular simulation of the structure and physical properties of alkali nitrate salts for thermal energy storage Ni HO, Wu J, Sun Z, Lu GM, Yu JG Renewable Energy, 136, 955, 2019 |
94 |
Techno-economic analysis of solar thermal power plants using liquid sodium as heat transfer fluid Fritsch A, Frantz C, Uhlig R Solar Energy, 177, 155, 2019 |
95 |
Numerical study on heat transfer enhancement of thermal energy storage systems considering radiation of molten salt Zhu YL, Yuan Y, Zhang CX, Xie M, Tan HP Solar Energy, 183, 337, 2019 |
96 |
Preliminary comparison of two potential test methods for molten salt receiver under uniformly and Gaussian-shape distributed incident power Zhang QQ, Wang ZF, Li X, Li Z, Li J, Liu H, Ruan Y, Xu L Solar Energy, 183, 532, 2019 |
97 |
Experimental study on the effect of SiO2 nanoparticle dispersion on the thermophysical properties of binary nitrate molten salt Li Y, Chen X, Wu YT, Lu YW, Zhi RP, Wang X, Ma CF Solar Energy, 183, 776, 2019 |
98 |
Transient model and characteristics of parabolic-trough solar collectors: Molten salt vs. synthetic oil Xu HJ, Li YS, Sun J, Li L Solar Energy, 182, 182, 2019 |
99 |
A computational approach to simulate the optical and thermal performance of a novel complex geometry solar tower molten salt cavity receiver Slootweg M, Craig KJ, Meyer JP Solar Energy, 187, 13, 2019 |
100 |
Numerical and experimental study of solidification dangers in a molten salt receiver for cloudy conditions Li Z, Zhang QQ, Wang ZF, Li J, Ruan Y Solar Energy, 193, 118, 2019 |