The intensification technologies to water electrolysis for hydrogen production–A review
Water electrolysis derived by renewable energy such as solar energy and wind energy is a
sustainable method for hydrogen production due to high purity, simple and green process …
sustainable method for hydrogen production due to high purity, simple and green process …
A comprehensive review of carbon and hydrocarbon assisted water electrolysis for hydrogen production
Hydrogen is mainly produced by natural gas reforming, which is a highly efficient process
with low feedstock costs. However, the rising interest in clean technologies will increase the …
with low feedstock costs. However, the rising interest in clean technologies will increase the …
Energy-saving cathodic H2 production enabled by non-oxygen evolution anodic reactions: a critical review on fundamental principles and applications
The energy efficiency of water electrolysis is constrained by the kinetic limitation of the
anodic oxygen evolution reaction (OER). Replacing the OER with thermodynamically more …
anodic oxygen evolution reaction (OER). Replacing the OER with thermodynamically more …
Two-step coal-assisted water electrolysis for energy-saving hydrogen production at cell voltage of 1.2 V with current densities larger than 150 mA/cm2
The application of water electrolysis for hydrogen production is inhibited by high energy
consumption, primarily due to the sluggish anodic oxygen evolution reaction (OER) …
consumption, primarily due to the sluggish anodic oxygen evolution reaction (OER) …
Comparison of co–gasification efficiencies of coal, lignocellulosic biomass and biomass hydrolysate for high yield hydrogen production
A Seçer, N Küçet, E Fakı, A Hasanoğlu - international journal of hydrogen …, 2018 - Elsevier
The diversity in the chemical composition of lignocellulosic feedstocks can affect the
conversion technologies employed for hydrogen production. Gasification and co …
conversion technologies employed for hydrogen production. Gasification and co …
Fe3+-mediated coal-assisted water electrolysis for hydrogen production: Roles of mineral matter and oxygen-containing functional groups in coal
Abstract Fe 3+-mediated coal-assisted water electrolysis (CAWE) for hydrogen production is
an effective way to utilize coal resources. Low-rank coal, which has a high abundance, is …
an effective way to utilize coal resources. Low-rank coal, which has a high abundance, is …
Kinetics and oxidation pathways of Fe3+-catalyzed carbon-assisted water electrolysis for hydrogen production
J Liu, C Chen, H Wu, J Cheng - International Journal of Hydrogen Energy, 2022 - Elsevier
Carbon-assisted water electrolysis can significantly reduce the electricity consumption of
electrolytic hydrogen production, but its slow kinetics limit its further development. In-depth …
electrolytic hydrogen production, but its slow kinetics limit its further development. In-depth …
Novel Pd–Cr electrocatalyst with low Pd content for coal electrolysis for hydrogen production
P Yu, H Jiang, R Peng, H Ma, R Zheng, JZ Zhang… - Journal of Power …, 2021 - Elsevier
Abstract Highly efficient Pd–Cr alloy electrocatalyst with various Cr/Pd ratios supported on
carbon fibers (CFs) is prepared by an impregnation and hydrogen-reduction method, and …
carbon fibers (CFs) is prepared by an impregnation and hydrogen-reduction method, and …
Biochar-assisted iron-mediated water electrolysis process for hydrogen production
The biochar-assisted water electrolysis process for hydrogen gas production is reported.
The H2 generation is performed in a divided electrolysis cell in which the hydrogen …
The H2 generation is performed in a divided electrolysis cell in which the hydrogen …
Improvement of coal-water fuel combustion characteristics by using of electromagnetic treatment
Using of coal-water slurries as fuel for heat and power generation is interesting for
researchers for a long time. Coal-water fuel (CWF) application has two major aspects of …
researchers for a long time. Coal-water fuel (CWF) application has two major aspects of …