Hydrogen productionHydrogen storage materialsHydrogen transportation2024 Elsevier LtdThe human-induced climate crisis is undoubtedly one of the most unrelenting global challenges we face today. Imperative and immediate policies, initiatives, and actions are vital to tackle the root causes of the problem ...
Hydrogen global production has so far been dominated by fossil fuels, with the most significant contemporary technologies being the steam reforming of hydrocarbons (e.g., natural gas). Pure hydrogen is also produced by electrolysis of water, an energy demanding process. This work reviews the ...
In the present global scenario, the imperative need for decarbonisation is rapidly driving the push towards the technologies for production of bio-hydrogen as a promising biofuel for the future. The escalating pace of industrial development and urban expansion has led to significant environmental degr...
Hydrogen is a type of clean energy which has the potential to replace the fossil energy for transportation, domestic and industrial applications. To expand the hydrogen production method and reduce the consumption of fossil energy, technologies of using renewable energy to generate hydrogen have been ...
“to meet the enormous demand for hydrogen-based fuels in the global north, production centres in the global south are urgently needed. while governments are beginning to realise the need to transition to fuels like hydrogen, little thought to date seems to have been given to how they will ac...
Electrolysis, an energy-intensive process for hydrogen production, is still confronting challenges to manifest itself economically. While, the production rate of 20g/kWh with predicated cost and efficiency 0.09 €/kWh or 6.36 $/kg and 79.2%, respectively, has been reported that depicts plasmolysis ...
Supercritical water gasification (SCWG) is considered to be one of the potential reforming approaches for hydrogen production as a clean and renewable energy carrier. Various feedstocks—renewable and nonrenewable—can be effectively reformed in supercritical water. This chapter reviews the current status...
Note that our catalyst with good high-current-density HER performance has been produced from cheap and earth abundant molybdenite mineral nature resources, giving it a huge potential for large-scale industry hydrogen production. Besides molybdenite minerals for HER reported in this work, the method ...
In addition, the global production of wood waste can exceed 4 Gt per year, of which more than 20% is caused by loss of production [13]. Most animal waste is generated from the fishing, poultry, and livestock industries, for example, due to their high production and disposal of inedible ...
Solid oxide electrolysis cells can theoretically achieve high energy-conversion efficiency, but current density must be further increased to improve the hydrogen production rate, which is essential to realize widespread application. Here, we report a structure technology for solid oxide electrolysis cells ...