| 1 |
Efficiency assessment of solar redox reforming in comparison to conventional reforming
Holzemer-Zerhusen P, Brendelberger S, von Storch H, Roeb M, Sattler C, Pitz-Paal R
International Journal of Hydrogen Energy, 45(7), 4137, 2020 |
| 2 |
Calibration of parameters for DEM simulations of solar particle receivers by bulk experiments and surrogate functions (vol 364, pg 831, 2020)
Grobbel J, Brendelberger S, Henninger M, Sattler C, Pitz-Paal R
Powder Technology, 366, 293, 2020 |
| 3 |
Calibration of parameters for DEM simulations of solar particle receivers by bulk experiments and surrogate functions
Grobbel J, Brendelberger S, Henninger M, Sattler C, Pitz-Paal R
Powder Technology, 364, 831, 2020 |
| 4 |
Redox thermochemistry of Ca-Mn-based perovskites for oxygen atmosphere control in solar-thermochemical processes
Pein M, Agrafiotis C, Vieten J, Giasafaki D, Brendelberger S, Roeb M, Sattler C
Solar Energy, 198, 612, 2020 |
| 5 |
Air separation and selective oxygen pumping via temperature and pressure swing oxygen adsorption using a redox cycle of SrFeO3 perovskite
Bulfin B, Lapp J, Richter S, Guban D, Vieten J, Brendelberger S, Roeb M, Sattler C
Chemical Engineering Science, 203, 68, 2019 |
| 6 |
Thermochemical oxygen pumping for improved hydrogen production in solar redox cycles
Brendelberger S, Vieten J, Roeb M, Sattler C
International Journal of Hydrogen Energy, 44(20), 9802, 2019 |
| 7 |
Demonstration of thermochemical oxygen pumping for atmosphere control in reduction reactions
Brendelberger S, Vieten J, Vidyasagar MJ, Roeb M, Sattler C
Solar Energy, 170, 273, 2018 |
| 8 |
Vacuum pumping options for application in solar thermochemical redox cycles - Assessment of mechanical-, jet- and thermochemical pumping systems
Brendelberger S, von Storch H, Bulfin B, Sattler C
Solar Energy, 141, 91, 2017 |
| 9 |
Heat transfer in a directly irradiated ceria particle bed under vacuum conditions
Grobbel J, Brendelberger S, Sattler C, Pitz-Paal R
Solar Energy, 158, 737, 2017 |
| 10 |
Design of a pilot scale directly irradiated, high temperature, and low pressure moving particle cavity chamber for metal oxide reduction
Singh A, Lapp J, Grobbel J, Brendelberger S, Reinhold JP, Olivera L, Ermanoski I, Siegel NP, McDaniel A, Roeb M, Sattler C
Solar Energy, 157, 365, 2017 |
