Green hydrogen productionProcess intensificationA membrane assisted process for green hydrogen production from a bioethanol derived feedstock is here developed and evaluated, starting from the conventional Steam Methane Reforming (SMR) process. Such a process is suitable for centralized hydrogen production, ...
The green hydrogen through water electrolysis production of is emerging as one of the main and best alternatives to replace the use of fossil fuels and thus mitigate environmental pollution and its consequences to the planet. For this purpose, the principles of the electrolysis process were ...
W.-C. Yang Hydrogen-Fueled Power Systems Gas Turbine Handb, 15261 (2006), pp. 107-115 Google Scholar [25] W. Zhang, C. Sun, C.E. Snape, R. Irons, S. Stebbing, T. Alderson, et al. Process simulations of post-combustion CO2 capture for coal and natural gas-fired power plants us...
过氧化氢绿色合成工艺研究进展Researchprogressinthegreensynthesisprocessofhydrogen 化工进展 2012年第31卷第8期 CHEMICALINDUSTRYANDENGINEERINGPROGRESS ·1641· 过氧化氢绿色合成工艺研究进展 管永川,李铧,张金利 (天津大学化工学院,天津300072) 摘要:过氧化氢是一种重要的绿色化工产品。由氢气和氧气直接催化合成过氧化氢...
our focus is on thermocatalytic decomposition — a method that yields specialty carbon and hydrogen from natural gas with minimal emissions. We champion the vision that zero carbon is the future of the economy. Our goal is to seamlessly integrate turquoise/green hydrogen, cutting-edge technology, ...
Moreover, the encapsulation of catalysts used for the decomposition of hydrogen peroxide radicals can be another factor in retarding the rate of decomposition. In this way, liposomes act as a stabilizing agent in the bleaching bath [34]. The role of auxiliary products is very important in ...
SMR (i) is a well-established and large-scale technology, mostly used for hydrogen production from methane. In this route, CH4and steam react in a reformer over a nickel-alumina catalyst [16], at a temperature of 1073.15 to 1173.15 K and a pressure of 15 to 30 bar. The primary reactio...
In this respect, the introduction of a CO2-free ammonia production could greatly impact the industrial processes’ panorama (Smith et al., 2020). In view of the decarbonization target, research efforts are focused on enabling ammonia synthesis from green hydrogen, benefiting from renewable energy ...
We reported the development of a novel synthetic process for Levodopa (1), which involves two simple chemical steps. The first step includes the reaction of l-tyrosine (18) with aqueous hydrogen bromide (HBr) to yield 3-bromo-l-tyrosine (19). The second step involves hydroxylation using an...
Hydrogen is a type of clean energy which has the potential to replace the fossil energy for transportation, domestic and industrial applications. To expand