Wojciech Lipiński
Title
Cited by
Cited by
Year
Thermodynamic analysis of isothermal redox cycling of ceria for solar fuel production
R Bader, LJ Venstrom, JH Davidson, W Lipiński
Energy & Fuels 27 (9), 5533-5544, 2013
1812013
Efficiency of two-step solar thermochemical non-stoichiometric redox cycles with heat recovery
J Lapp, JH Davidson, W Lipiński
Energy 37 (1), 591-600, 2012
1702012
Tomography-based heat and mass transfer characterization of reticulate porous ceramics for high-temperature processing
S Haussener, P Coray, W Lipiński, P Wyss, A Steinfeld
Journal of Heat Transfer 132 (2), 023305, 2009
1572009
Solar chemical reactor technology for industrial production of lime
A Meier, E Bonaldi, GM Cella, W Lipiński, D Wuillemin
Solar Energy 80 (10), 1355-1362, 2006
1422006
Design and experimental investigation of a horizontal rotary reactor for the solar thermal production of lime
A Meier, E Bonaldi, GM Cella, W Lipiński, D Wuillemin, R Palumbo
Energy 29 (5), 811-821, 2004
1332004
Heat transfer model of a solar receiver-reactor for the thermal dissociation of ZnO—Experimental validation at 10kW and scale-up to 1MW
LO Schunk, W Lipiński, A Steinfeld
Chemical Engineering Journal 150 (2), 502-508, 2009
1182009
Heat transfer analysis of a novel pressurized air receiver for concentrated solar power via combined cycles
I Hischier, D Hess, W Lipiński, M Modest, A Steinfeld
Journal of Thermal Science and Engineering Applications 1 (4), 2009
972009
Quantitative comparison of photothermal heat generation between gold nanospheres and nanorods
Z Qin, Y Wang, J Randrianalisoa, V Raeesi, WCW Chan, W Lipiński, ...
Scientific reports 6 (1), 1-13, 2016
942016
Heat transfer analysis of a solid-solid heat recuperation system for solar-driven nonstoichiometric redox cycles
J Lapp, JH Davidson, W Lipiński
Journal of Solar Energy Engineering 135 (3), 031004, 2013
932013
Techno-economic assessment of solid–gas thermochemical energy storage systems for solar thermal power applications
A Bayon, R Bader, M Jafarian, L Fedunik-Hofman, Y Sun, J Hinkley, ...
Energy 149, 473-484, 2018
822018
Transient heat transfer in a directly-irradiated solar chemical reactor for the thermal dissociation of ZnO
R Müller, W Lipiński, A Steinfeld
Applied Thermal Engineering 28 (5-6), 524-531, 2008
812008
Tomographic characterization of a semitransparent-particle packed bed and determination of its thermal radiative properties
S Haussener, W Lipiński, J Petrasch, P Wyss, A Steinfeld
Journal of Heat Transfer 131 (7), 072701, 2009
782009
Numerical and experimental study of gas–particle radiative heat exchange in a fluidized-bed reactor for steam-gasification of coal
P Von Zedtwitz, W Lipiński, A Steinfeld
Chemical Engineering Science 62 (1-2), 599-607, 2007
772007
Design of a new 45 kWe high-flux solar simulator for high-temperature solar thermal and thermochemical research
KR Krueger, JH Davidson, W Lipiński
Journal of solar energy engineering 133 (1), 2011
742011
Multitube rotary kiln for the industrial solar production of lime
A Meier, E Bonaldi, GM Cella, W Lipiński
Journal of Solar Energy Engineering 127 (3), 386-395, 2005
622005
Application of the spatial averaging theorem to radiative heat transfer in two-phase media
W Lipiński, J Petrasch, S Haussener
Journal of Quantitative Spectroscopy and Radiative Transfer 111 (1), 253-258, 2010
602010
Optical design of multisource high-flux solar simulators
R Bader, S Haussener, W Lipiński
Journal of Solar Energy Engineering 137 (2), 2015
592015
Heterogeneous thermochemical decomposition under direct irradiation
W Lipiński, A Steinfeld
International Journal of Heat and Mass Transfer 47 (8), 1907-1916, 2004
562004
Visible and near-infrared optical properties of ceria ceramics
K Ganesan, LA Dombrovsky, W Lipiński
Infrared Physics & Technology 57, 101-109, 2013
532013
Operational performance of the University of Minnesota 45 kWe high-flux solar simulator
KR Krueger, W Lipiński, JH Davidson
Journal of Solar Energy Engineering 135 (4), 044501, 2013
522013
The system can't perform the operation now. Try again later.
Articles 1–20