Lifeng Li
Title
Cited by
Cited by
Year
Optics of solar central receiver systems: a review
L Li, J Coventry, R Bader, J Pye, W Lipiński
Optics express 24 (14), A985-A1007, 2016
532016
Design of a compound parabolic concentrator for a multi-source high-flux solar simulator
L Li, B Wang, J Pottas, W Lipiński
Solar Energy 183, 805-811, 2019
262019
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
232016
Progress in heat transfer research for high-temperature solar thermal applications
W Lipiński, E Abbasi-Shavazi, J Chen, J Coventry, M Hangi, S Iyer, ...
Applied Thermal Engineering 184, 116137, 2021
152021
Reflective optics for redirecting convergent radiative beams in concentrating solar applications
L Li, B Wang, R Bader, J Zapata, W Lipiński
Solar Energy 191, 707-718, 2019
82019
Thermal model of a solar thermochemical reactor for metal oxide reduction
B Wang, L Li, JJ Pottas, R Bader, PB Kreider, VM Wheeler, W Lipiński
Journal of Solar Energy Engineering 142 (5), 051002, 2020
72020
Temperature-based optical design, optimization and economics of solar polar-field central receiver systems with an optional compound parabolic concentrator
L Li, B Wang, J Pye, W Lipiński
Solar Energy 206, 1018-1032, 2020
72020
Thermal reduction of iron–manganese oxide particles in a high-temperature packed-bed solar thermochemical reactor
B Wang, L Li, F Schäfer, JJ Pottas, A Kumar, VM Wheeler, W Lipiński
Chemical Engineering Journal 412, 128255, 2021
52021
Optical analysis of a solar thermochemical system with a rotating tower reflector and a receiver–reactor array
L Li, S Yang, B Wang, J Pye, W Lipiński
Optics Express 28 (13), 19429-19445, 2020
52020
Optical analysis of a multi-aperture solar central receiver system for high-temperature concentrating solar applications
L Li, B Wang, J Pye, R Bader, W Wang, W Lipiński
Optics Express 28 (25), 37654-37668, 2020
12020
Optical analyses of multi-aperture solar central receiver systems for high-temperature concentrating solar applications
LL Li, B Wang, R Bader, W Wang, J Pye, L Wojciech
In Proceedings of the OSA Advanced Photonics Congress (AP) 2020 (IPR, NP …, 2020
12020
Numerical study of surface heat transfer enhancement in an impinging solar receiver
L Li
Master Thesis, Uppsala University, Royal Institute of Technology (KTH), 2014
12014
Thermodynamic Analysis of a Conceptual Fixed-Bed Solar Thermochemical Cavity Receiver–Reactor Array for Water Splitting Via Ceria Redox Cycling
S Yang, L Li, B Wang, S Li, J Wang, P Lund, W Lipiński
Frontiers in Energy Research 9, 2021
2021
Design, Modelling and Optimisation of Optical Systems for High-Temperature Concentrating Solar Applications
L Li
PhD thesis, The Australian National University, doi:10.25911/245K-V846, 2021
2021
Optical Analysis of a Novel Solar Thermochemical System with a Rotating Tower Reflector and a Receiver–Reactor Array
2020 AIChE Annual Meeting (virtual), 2020
2020
Optical design, optimization and economics of a solar polar-field tower system with an optional compound parabolic concentrator
L Li, B Wang, J Pye, W Lipiński
In Proceedings of the 2019 Asia–Pacific Solar Research Conference (APSRC), 2019
2019
Application of a Compound Parabolic Concentrator to a Multi-Source High-Flux Solar Simulator
L Li, B Wang, J Pottas, J Zapata, W Lipiński
In Proceedings of the OSA 2018 Light, Energy and the Environment Congress …, 2018
2018
Optical Design of a Heliostat Field for a High-Temperature Receiver–Reactor
L Li, J Pye, W Lipiński
In Proceedings of the OSA 2018 Light, Energy and the Environment Congress …, 2018
2018
Review of Optical Studies on Central Tower Concentrators
L Li, J Pye, W Lipiński
In Proceedings of the OSA 2015 Light, Energy and the Environment Congress …, 2015
2015
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Articles 1–19