Catalytic conversion of bio-renewable glycerol to pure hydrogen and syngas: Energy management and mitigation of environmental pollution

“…Researchers are continuously working to develop efficient, stable and sustainable energy systems to address the problems of limited conventional energy storage, which are harmful to the environment, and to reduce dependence on finite fossil fuel resources to meet the energy demand. 1–3 Hydrogen is a clean and renewable energy source, storing several times more energy per unit mass than fossil fuels, and can be used in industrial fuels, medical anesthesia, and transportation, which is crucial for promoting the energy transition. 4–6 Photoelectrochemical (PEC) water splitting utilizes renewable energy sources, such as solar energy, to convert water into hydrogen for highly energy-dense storage and utilization.…”

Phase engineering to construct In₂S₃ heterophase junctions and abundant active boundaries and surfaces for efficient Pyro-PEC performance in CdS/In₂S₃

“…Researchers are continuously working to develop efficient, stable and sustainable energy systems to address the problems of limited conventional energy storage, which are harmful to the environment, and to reduce dependence on finite fossil fuel resources to meet the energy demand. 1–3 Hydrogen is a clean and renewable energy source, storing several times more energy per unit mass than fossil fuels, and can be used in industrial fuels, medical anesthesia, and transportation, which is crucial for promoting the energy transition. 4–6 Photoelectrochemical (PEC) water splitting utilizes renewable energy sources, such as solar energy, to convert water into hydrogen for highly energy-dense storage and utilization.…”

Phase engineering to construct In₂S₃ heterophase junctions and abundant active boundaries and surfaces for efficient Pyro-PEC performance in CdS/In₂S₃

“…40 It was studied by Amirabadi et al 41 that optimization of methanol synthesis, methylcyclohexane dehydrogenation, and hydrogen production could be achieved in a double membrane reactor, which is thermally coupled. In a MFMR, Khademi et al 42 investigated the theory of simultaneous production of hydrogen and synthesis gas. For these purposes, they are using glycerol steam reforming and methane tri-reforming.…”

Improvement in Ammonia, Hydrogen, and Methyl Formate Synthesis Process by Employing Multiobjective Optimization of a Novel Multifunctional Membrane Reactor

Modeling and simulation of natural gas reforming by membrane