| A highly efficient light-trapping structure for thin-film silicon solar cells L Zhao, YH Zuo, CL Zhou, HL Li, HW Diao, WJ Wang Solar energy 84 (1), 110-115, 2010 | 105 | 2010 |
| An experimental investigation of a natural circulation heat pipe system applied to a parabolic trough solar collector steam generation system L Zhang, W Wang, Z Yu, L Fan, Y Hu, Y Ni, J Fan, K Cen Solar energy 86 (3), 911-919, 2012 | 80 | 2012 |
| An experimental investigation of the heat losses of a U-type solar heat pipe receiver of a parabolic trough collector-based natural circulation steam generation system L Zhang, Z Yu, L Fan, W Wang, H Chen, Y Hu, J Fan, M Ni, K Cen Renewable energy 57, 262-268, 2013 | 69 | 2013 |
| Simulate a ‘sun’for solar research: a literature review of solar simulator technology W Wang, B Laumert KTH Royal Institute of Technology, 2014 | 65 | 2014 |
| Optimized resistivity of p-type Si substrate for HIT solar cell with Al back surface field by computer simulation L Zhao, HL Li, CL Zhou, HW Diao, WJ Wang Solar Energy 83 (6), 812-816, 2009 | 63 | 2009 |
| Development of a Fresnel lens based high-flux solar simulator W Wang, L Aichmayer, J Garrido, B Laumert Solar energy 144, 436-444, 2017 | 61 | 2017 |
| Design and validation of a low-cost high-flux solar simulator using Fresnel lens concentrators W Wang, L Aichmayer, B Laumert, T Fransson Energy Procedia 49, 2221-2230, 2014 | 59 | 2014 |
| Conjugate heat transfer analysis of an impinging receiver design for a dish-Brayton system W Wang, B Laumert, H Xu, T Strand Solar Energy 119, 298-309, 2015 | 51 | 2015 |
| An inverse design method for a cavity receiver used in solar dish Brayton system W Wang, H Xu, B Laumert, T Strand Solar energy 110, 745-755, 2014 | 49 | 2014 |
| Integrated design of a hybrid gas turbine-receiver unit for a solar dish system W Wang, G Ragnolo, L Aichmayer, T Strand, B Laumert Energy Procedia 69, 583-592, 2015 | 44 | 2015 |
| Technoeconomic design of a micro gas-turbine for a solar dish system G Ragnolo, L Aichmayer, W Wang, T Strand, B Laumert Energy Procedia 69, 1133-1142, 2015 | 43 | 2015 |
| Effect of cavity surface material on the concentrated solar flux distribution for an impinging receiver W Wang, B Laumert Solar Energy Materials and Solar Cells 161, 177-182, 2017 | 38 | 2017 |
| A numerical study of the transition from slug to annular flow in micro-channel convective boiling Q Liu, W Wang, B Palm Applied Thermal Engineering 112, 73-81, 2017 | 36 | 2017 |
| Experimental evaluation of a novel solar receiver for a micro gas-turbine based solar dish system in the KTH high-flux solar simulator L Aichmayer, J Garrido, W Wang, B Laumert Energy 159, 184-195, 2018 | 32 | 2018 |
| The effect of the cooling nozzle arrangement to the thermal performance of a solar impinging receiver W Wang, B Wang, L Li, B Laumert, T Strand Solar Energy 131, 222-234, 2016 | 32 | 2016 |
| Theoretical investigation on the absorption enhancement of the crystalline silicon solar cells by pyramid texture coated with SiNx: H layer L Zhao, YH Zuo, CL Zhou, HL Li, HW Diao, WJ Wang Solar energy 85 (3), 530-537, 2011 | 32 | 2011 |
| Experimental evaluation of an innovative radial-flow high-temperature packed bed thermal energy storage S Trevisan, W Wang, R Guedez, B Laumert Applied Energy 311, 118672, 2022 | 28 | 2022 |
| Transient performance of an impinging receiver: an indoor experimental study W Wang, A Malmquist, L Aichmayer, B Laumert Energy conversion and management 158, 193-200, 2018 | 26 | 2018 |
| Characterization of the KTH high-flux solar simulator combining three measurement methods J Garrido, L Aichmayer, W Wang, B Laumert Energy 141, 2091-2099, 2017 | 25 | 2017 |
| Development of an impinging receiver for solar dish-Brayton systems W Wang KTH Royal Institute of Technology, 2015 | 24 | 2015 |
