| Empirical validation of models to compute solar irradiance on inclined surfaces for building energy simulation PG Loutzenhiser, H Manz, C Felsmann, PA Strachan, TH Frank, ... Solar Energy 81 (2), 254-267, 2007 | 579 | 2007 |
| Review of the Two-Step H2O/CO2-Splitting Solar Thermochemical Cycle Based on Zn/ZnO Redox Reactions PG Loutzenhiser, A Meier, A Steinfeld Materials 3 (11), 4922-4938, 2010 | 239 | 2010 |
| CO2 Splitting via Two-Step Solar Thermochemical Cycles with Zn/ZnO and FeO/Fe3O4 Redox Reactions: Thermodynamic Analysis ME Galvez, PG Loutzenhiser, I Hischier, A Steinfeld Energy & Fuels 22 (5), 3544-3550, 2008 | 217 | 2008 |
| Solar syngas production from CO2 and H2O in a two-step thermochemical cycle via Zn/ZnO redox reactions: Thermodynamic cycle analysis PG Loutzenhiser, A Steinfeld International journal of hydrogen energy 36 (19), 12141-12147, 2011 | 164 | 2011 |
| CO2 Splitting via Two-Step Solar Thermochemical Cycles with Zn/ZnO and FeO/Fe3O4 Redox Reactions II: Kinetic Analysis PG Loutzenhiser, ME Gálvez, I Hischier, A Stamatiou, A Frei, A Steinfeld Energy & Fuels 23 (5), 2832-2839, 2009 | 159 | 2009 |
| An empirical validation of the daylighting algorithms and associated interactions in building energy simulation programs using various shading devices and windows PG Loutzenhiser, GM Maxwell, H Manz Energy 32 (10), 1855-1870, 2007 | 156 | 2007 |
| Solar Syngas Production via H2O/CO2-Splitting Thermochemical Cycles with Zn/ZnO and FeO/Fe3O4 Redox Reactions A Stamatiou, PG Loutzenhiser, A Steinfeld Chemistry of materials 22 (3), 851-859, 2010 | 154 | 2010 |
| Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions III: Solar thermochemical … AJ Schrader, G De Dominicis, GL Schieber, PG Loutzenhiser Solar Energy 150, 584-595, 2017 | 121 | 2017 |
| Solar Syngas Production from H2O and CO2 via Two-Step Thermochemical Cycles Based on Zn/ZnO and FeO/Fe3O4 Redox Reactions: Kinetic Analysis A Stamatiou, PG Loutzenhiser, A Steinfeld Energy & Fuels 24 (4), 2716-2722, 2010 | 105 | 2010 |
| Characterization of a 6 kW high-flux solar simulator with an array of xenon arc lamps capable of concentrations of nearly 5000 suns R Gill, E Bush, P Haueter, P Loutzenhiser Review of Scientific Instruments 86 (12), 2015 | 92 | 2015 |
| Series of experiments for empirical validation of solar gain modeling in building energy simulation codes—Experimental setup, test cell characterization, specifications and … H Manz, P Loutzenhiser, T Frank, PA Strachan, R Bundi, G Maxwell Building and environment 41 (12), 1784-1797, 2006 | 92 | 2006 |
| Solar electricity via an Air Brayton cycle with an integrated two-step thermochemical cycle for heat storage based on Co3O4/CoO redox reactions II: Kinetic analyses AP Muroyama, AJ Schrader, PG Loutzenhiser Solar Energy 122, 409-418, 2015 | 79 | 2015 |
| An empirical validation of window solar gain models and the associated interactions PG Loutzenhiser, H Manz, S Moosberger, GM Maxwell International Journal of Thermal Sciences 48 (1), 85-95, 2009 | 78 | 2009 |
| CO2 splitting in an aerosol flow reactor via the two-step Zn/ZnO solar thermochemical cycle PG Loutzenhiser, ME Gálvez, I Hischier, A Graf, A Steinfeld Chemical Engineering Science 65 (5), 1855-1864, 2010 | 72 | 2010 |
| Empirical validations of shading/daylighting/load interactions in building energy simulation tools P Loutzenhiser, H Manz, G Maxwell A report for the international energy agency SHC task 34, 2007 | 69 | 2007 |
| Experimental demonstration of a 5 kWth granular-flow reactor for solar thermochemical energy storage with aluminum-doped calcium manganite particles AJ Schrader, GL Schieber, A Ambrosini, PG Loutzenhiser Applied Thermal Engineering 173, 115257, 2020 | 68 | 2020 |
| An empirical validation of modeling solar gain through a glazing unit with external and internal shading screens PG Loutzenhiser, H Manz, C Felsmann, PA Strachan, GM Maxwell Applied Thermal Engineering 27 (2-3), 528-538, 2007 | 68 | 2007 |
| A review of the state-of-the-art in solar-driven gasification processes with carbonaceous materials PG Loutzenhiser, AP Muroyama Solar Energy 156, 93-100, 2017 | 63 | 2017 |
| Production of Si by vacuum carbothermal reduction of SiO2 using concentrated solar energy PG Loutzenhiser, O Tuerk, A Steinfeld Jom 62, 49-54, 2010 | 57 | 2010 |
| Empirical validations of solar gain models for a glazing unit with exterior and interior blind assemblies PG Loutzenhiser, H Manz, S Carl, H Simmler, GM Maxwell Energy and Buildings 40 (3), 330-340, 2008 | 48 | 2008 |
