| 1 |
CFD model for the performance estimation of open volumetric receivers and comparison with experimental data
Stadler H, Maldonado D, Offergeld M, Schwarzbozl P, Trautner J
Solar Energy, 177, 634, 2019 |
| 2 |
Wind tunnel measurements of forced convective heat loss from multi-megawatt cavities of solar central receiver systems
Siegrist S, Stadler H, Hoffschmidt B
Solar Energy, 169, 607, 2018 |
| 3 |
Optimized volumetric solar receiver: Thermal performance prediction and experimental validation
Capuano R, Fend T, Stadler H, Hoffschmidt B, Pitz-Paal R
Renewable Energy, 114, 556, 2017 |
| 4 |
Air return ratio measurements at the solar tower Julich using a tracer gas method
Tiddens A, Roger M, Stadler H, Hoffschmidt B
Solar Energy, 146, 351, 2017 |
| 5 |
Improved performance of open volumetric receivers by employing an external air return system
Stadler H, Tiddens A, Schwarzbozl P, Gohring F, Baumann T, Trautner J
Solar Energy, 155, 1157, 2017 |
| 6 |
On the assessment of renewable industrial processes: Case study for solar co-production of methanol and power
von Storch H, Roeb M, Stadler H, Sattler C, Bardow A, Hoffschmidt B
Applied Energy, 183, 121, 2016 |
| 7 |
Numerical analysis of the influence of inclination angle and wind on the heat losses of cavity receivers for solar thermal power towers
Flesch R, Stadler H, Uhlig R, Pitz-Paal R
Solar Energy, 110, 427, 2014 |
| 8 |
Trends in NOx during Pulverized Fuel Oxy-fuel Combustion
Ikeda M, Toporov D, Christ D, Stadler H, Forster M, Kneer R
Energy & Fuels, 26(6), 3141, 2012 |
| 9 |
Experimental investigation of NOx emissions in oxycoal combustion
Stadler H, Christ D, Habermehl M, Heil P, Kellermann A, Ohliger A, Toporov D, Kneer R
Fuel, 90(4), 1604, 2011 |
| 10 |
Simulation of a membrane unit for oxyfuel power plants under consideration of realistic BSCF membrane properties
Engels S, Beggel F, Modigell M, Stadler H
Journal of Membrane Science, 359(1-2), 93, 2010 |
