Add to ORKGThe 3-step sulphur-iodine-based thermochemical cycle for splitting water is considered. The high-temperature step consists of the evaporation, decomposition, and reduction of H2SO4 to SO2 using concentrated solar process heat. This step is followed by the Bunsen reaction and HI decomposition. The solar reactor concepts proposed are based on a shell-and-tube heat exchanger filled with catalytic packed beds and on a porous ceramic foam to directly absorb solar radiation and act as reaction site. The design, modeling, and optimization of the solar reactor using complex porous structures relies on the accurate determination of their effective heat and mass transport properties. Accordingly, a multi-scale approach is applied. Ceramic foam sample...
A high flux solar simulator allows the lab-scale assessment of solar reactor concepts by irradiating...
A volumetric solar receiver for superheating evaporated sulfuric acid is developed as part of a 100 ...
Solar thermochemical processes utilize inexhaustible solar energy as a thermal driving force to prov...
The 3-step sulphur-iodine-based thermochemical cycle for splitting water is considered. The high tem...
The 3-step sulphur-iodine-based thermochemical cycle for splitting water is considered. The high-tem...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
A critical step of sulfur based thermochemical cycles for hydrogen production from water is the endo...
Fossil energy carriers may be replaced in the future by hydrogen to save fossil resources and to avo...
Fossil energy carriers may be replaced in the future by hydrogen to save fossil resources and to avo...
Solar energy underlies significant diurnal and seasonal fluctuations and hence requires qualified st...
A basic concept for a receiver-reactor for solar sulfuric acid decomposition as the key step of ther...
Decomposition of sulphuric acid is a key step of sulphur based thermochemical cycles for hydrogen pr...
University of Minnesota Ph.D. dissertation. October 2015. Major: Mechanical Engineering. Advisor: Ja...
A high flux solar simulator allows the lab-scale assessment of solar reactor concepts by irradiating...
A volumetric solar receiver for superheating evaporated sulfuric acid is developed as part of a 100 ...
Solar thermochemical processes utilize inexhaustible solar energy as a thermal driving force to prov...
The 3-step sulphur-iodine-based thermochemical cycle for splitting water is considered. The high tem...
The 3-step sulphur-iodine-based thermochemical cycle for splitting water is considered. The high-tem...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
Solar sulphuric acid cracking is a key step of the hybrid sulphur cycle (HyS) for thermochemical wat...
A critical step of sulfur based thermochemical cycles for hydrogen production from water is the endo...
Fossil energy carriers may be replaced in the future by hydrogen to save fossil resources and to avo...
Fossil energy carriers may be replaced in the future by hydrogen to save fossil resources and to avo...
Solar energy underlies significant diurnal and seasonal fluctuations and hence requires qualified st...
A basic concept for a receiver-reactor for solar sulfuric acid decomposition as the key step of ther...
Decomposition of sulphuric acid is a key step of sulphur based thermochemical cycles for hydrogen pr...
University of Minnesota Ph.D. dissertation. October 2015. Major: Mechanical Engineering. Advisor: Ja...
A high flux solar simulator allows the lab-scale assessment of solar reactor concepts by irradiating...
A volumetric solar receiver for superheating evaporated sulfuric acid is developed as part of a 100 ...
Solar thermochemical processes utilize inexhaustible solar energy as a thermal driving force to prov...