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This book focuses on catalytic hydrogen generation from formic acid, ammonia borane, and ethanol as well as on the production of fuels from tar using formic acid as a hydrogen source. The list of discussed catalysts includes single-atom catalysts, metallic/bimetallic catalysts, and supported metal complexes. These catalysts were thoroughly characterized using different methods. Optimized catalyst compositions are proposed.
Technology: general issues --- Chemical engineering --- hydrocracking --- tar --- formic acid --- nickel --- zeolite --- hydrogen donor --- catalyst --- formic acid decomposition --- hydrogen --- biomass --- metal complex --- heterogeneous catalyst --- ruthenium --- iridium --- iron --- palladium --- nitrogen --- carbon nanotubes --- ammonia borane --- hydrogen production --- hydrogen carrier --- hydrogen storage --- Ru nanoparticles --- renewable hydrogen --- biofuel --- reforming of bioethanol --- bimetallic catalyst --- modifier --- catalysts --- hydrocracking --- tar --- formic acid --- nickel --- zeolite --- hydrogen donor --- catalyst --- formic acid decomposition --- hydrogen --- biomass --- metal complex --- heterogeneous catalyst --- ruthenium --- iridium --- iron --- palladium --- nitrogen --- carbon nanotubes --- ammonia borane --- hydrogen production --- hydrogen carrier --- hydrogen storage --- Ru nanoparticles --- renewable hydrogen --- biofuel --- reforming of bioethanol --- bimetallic catalyst --- modifier --- catalysts
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This book focuses on catalytic hydrogen generation from formic acid, ammonia borane, and ethanol as well as on the production of fuels from tar using formic acid as a hydrogen source. The list of discussed catalysts includes single-atom catalysts, metallic/bimetallic catalysts, and supported metal complexes. These catalysts were thoroughly characterized using different methods. Optimized catalyst compositions are proposed.
Technology: general issues --- Chemical engineering --- hydrocracking --- tar --- formic acid --- nickel --- zeolite --- hydrogen donor --- catalyst --- formic acid decomposition --- hydrogen --- biomass --- metal complex --- heterogeneous catalyst --- ruthenium --- iridium --- iron --- palladium --- nitrogen --- carbon nanotubes --- ammonia borane --- hydrogen production --- hydrogen carrier --- hydrogen storage --- Ru nanoparticles --- renewable hydrogen --- biofuel --- reforming of bioethanol --- bimetallic catalyst --- modifier --- catalysts
Choose an application
This book focuses on catalytic hydrogen generation from formic acid, ammonia borane, and ethanol as well as on the production of fuels from tar using formic acid as a hydrogen source. The list of discussed catalysts includes single-atom catalysts, metallic/bimetallic catalysts, and supported metal complexes. These catalysts were thoroughly characterized using different methods. Optimized catalyst compositions are proposed.
hydrocracking --- tar --- formic acid --- nickel --- zeolite --- hydrogen donor --- catalyst --- formic acid decomposition --- hydrogen --- biomass --- metal complex --- heterogeneous catalyst --- ruthenium --- iridium --- iron --- palladium --- nitrogen --- carbon nanotubes --- ammonia borane --- hydrogen production --- hydrogen carrier --- hydrogen storage --- Ru nanoparticles --- renewable hydrogen --- biofuel --- reforming of bioethanol --- bimetallic catalyst --- modifier --- catalysts
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Developing active, selective and energy-efficient heterogeneous catalysts is of paramount importance for the production of high value-added products from energy resources in a more sustainable manner. In this Special Issue of Energies, we provide a showcase of the latest progress in the development of cleaner, more efficient processes for the conversion of these feedstocks into valuable fuels, chemicals and energy. Most of the works collected are focused on the conversion of biomass which clearly reflects the paramount importance that the biorefinery concept will play in the years to come.
Technology: general issues --- biogas --- syngas production --- DRM --- Ni catalyst --- bi-metallic catalyst --- ceria-alumina --- ceria --- glycerol --- methanol --- biodiesel --- red jujube branch --- hydrothermal carbonization --- hydrochar --- energy recovery efficiency --- solid fuel --- toluene --- steam reforming --- GHSV --- S/C ratio --- coke formation --- Mo2C catalysts --- nanostructured carbon materials --- hydrodeoxygenation of guaiacol --- carbothermal hydrogen reduction --- drop-in fuels --- biomass --- bio-oil --- pyrolysis --- spark engine --- gasoline --- levulinic acid --- γ-valerolactone --- hydrogen from water --- Zn: Ni --- sepiolite --- attapulgite --- Ru nanoparticles --- activated carbon --- one-pot hydrolytic hydrogenation --- cellulose conversion --- sorbitol --- biogas --- syngas production --- DRM --- Ni catalyst --- bi-metallic catalyst --- ceria-alumina --- ceria --- glycerol --- methanol --- biodiesel --- red jujube branch --- hydrothermal carbonization --- hydrochar --- energy recovery efficiency --- solid fuel --- toluene --- steam reforming --- GHSV --- S/C ratio --- coke formation --- Mo2C catalysts --- nanostructured carbon materials --- hydrodeoxygenation of guaiacol --- carbothermal hydrogen reduction --- drop-in fuels --- biomass --- bio-oil --- pyrolysis --- spark engine --- gasoline --- levulinic acid --- γ-valerolactone --- hydrogen from water --- Zn: Ni --- sepiolite --- attapulgite --- Ru nanoparticles --- activated carbon --- one-pot hydrolytic hydrogenation --- cellulose conversion --- sorbitol
Choose an application
Developing active, selective and energy-efficient heterogeneous catalysts is of paramount importance for the production of high value-added products from energy resources in a more sustainable manner. In this Special Issue of Energies, we provide a showcase of the latest progress in the development of cleaner, more efficient processes for the conversion of these feedstocks into valuable fuels, chemicals and energy. Most of the works collected are focused on the conversion of biomass which clearly reflects the paramount importance that the biorefinery concept will play in the years to come.
Technology: general issues --- biogas --- syngas production --- DRM --- Ni catalyst --- bi-metallic catalyst --- ceria-alumina --- ceria --- glycerol --- methanol --- biodiesel --- red jujube branch --- hydrothermal carbonization --- hydrochar --- energy recovery efficiency --- solid fuel --- toluene --- steam reforming --- GHSV --- S/C ratio --- coke formation --- Mo2C catalysts --- nanostructured carbon materials --- hydrodeoxygenation of guaiacol --- carbothermal hydrogen reduction --- drop-in fuels --- biomass --- bio-oil --- pyrolysis --- spark engine --- gasoline --- levulinic acid --- γ-valerolactone --- hydrogen from water --- Zn: Ni --- sepiolite --- attapulgite --- Ru nanoparticles --- activated carbon --- one-pot hydrolytic hydrogenation --- cellulose conversion --- sorbitol
Choose an application
Developing active, selective and energy-efficient heterogeneous catalysts is of paramount importance for the production of high value-added products from energy resources in a more sustainable manner. In this Special Issue of Energies, we provide a showcase of the latest progress in the development of cleaner, more efficient processes for the conversion of these feedstocks into valuable fuels, chemicals and energy. Most of the works collected are focused on the conversion of biomass which clearly reflects the paramount importance that the biorefinery concept will play in the years to come.
biogas --- syngas production --- DRM --- Ni catalyst --- bi-metallic catalyst --- ceria-alumina --- ceria --- glycerol --- methanol --- biodiesel --- red jujube branch --- hydrothermal carbonization --- hydrochar --- energy recovery efficiency --- solid fuel --- toluene --- steam reforming --- GHSV --- S/C ratio --- coke formation --- Mo2C catalysts --- nanostructured carbon materials --- hydrodeoxygenation of guaiacol --- carbothermal hydrogen reduction --- drop-in fuels --- biomass --- bio-oil --- pyrolysis --- spark engine --- gasoline --- levulinic acid --- γ-valerolactone --- hydrogen from water --- Zn: Ni --- sepiolite --- attapulgite --- Ru nanoparticles --- activated carbon --- one-pot hydrolytic hydrogenation --- cellulose conversion --- sorbitol
Listing 1 - 6 of 6 |
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