The recent areas of applicability of palladium based membrane technologies for hydrogen production from methane and natural gas: A review
In the wake of the devastating consequences of climate change, many countries are
searching for alternative renewable energy. Hydrogen, the most abundant element on earth …
searching for alternative renewable energy. Hydrogen, the most abundant element on earth …
[HTML][HTML] Evolution paths from gray to turquoise hydrogen via catalytic steam methane reforming: Current challenges and future developments
Fossil fuel depletion, global warming, climate change, and steep hikes in the price of fuel are
driving scientists to investigate commercial and environmentally friendly energy carriers like …
driving scientists to investigate commercial and environmentally friendly energy carriers like …
Advances on methane steam reforming to produce hydrogen through membrane reactors technology: A review
Methane steam reforming is the most common industrial process used for almost the 50% of
the world's hydrogen production. Commonly, this reaction is performed in fixed bed reactors …
the world's hydrogen production. Commonly, this reaction is performed in fixed bed reactors …
Overview of hydrogen production technologies from biogas and the applications in fuel cells
Traditionally, H2 is a large-scale production by the reforming process of light hydrocarbons,
mainly natural gas, used by the chemical industry. However, the reforming technologies …
mainly natural gas, used by the chemical industry. However, the reforming technologies …
Membrane reactors for sustainable hydrogen production through steam reforming of hydrocarbons: A review
TY Amiri, K Ghasemzageh, A Iulianelli - Chemical Engineering and …, 2020 - Elsevier
Membrane reactors-as promising technology for pursuing the Process Intensification
Strategy in various chemical processes-were reviewed in the field of steam reforming of …
Strategy in various chemical processes-were reviewed in the field of steam reforming of …
Inorganic membranes for in-situ separation of hydrogen and enhancement of hydrogen production from thermochemical reactions
W Wang, G Olguin, D Hotza, MA Seelro, W Fu… - … and Sustainable Energy …, 2022 - Elsevier
In the face of a series of global challenges caused by the dependence on fossil fuels, such
as the greenhouse effect, energy shortage and air pollution, the development and utilization …
as the greenhouse effect, energy shortage and air pollution, the development and utilization …
[HTML][HTML] Opportunities and challenges of low-carbon hydrogen via metallic membranes
Today, electricity & heat generation, transportation, and industrial sectors together produce
more than 80% of energy-related CO 2 emissions. Hydrogen may be used as an energy …
more than 80% of energy-related CO 2 emissions. Hydrogen may be used as an energy …
Recent advances in bimetallic catalysts for methane steam reforming in hydrogen production: current trends, challenges, and future prospects
As energy demand continues to rise and the global population steadily grows, there is a
growing interest in exploring alternative, clean, and renewable energy sources. The search …
growing interest in exploring alternative, clean, and renewable energy sources. The search …
Modeling and comprehensive analysis of hydrogen production in a newly designed steam methane reformer with membrane system
The use of a hydrogen perm-selective membrane in the conventional steam methane
reformer (SMR) is a promising technology for producing ultra-pure hydrogen under …
reformer (SMR) is a promising technology for producing ultra-pure hydrogen under …
Thermodynamic and experimental study of combined dry and steam reforming of methane on Ru/ZrO2-La2O3 catalyst at low temperature
Analysis of the effect of adding small amounts of steam to the methane dry reforming feed on
activity and products distribution was performed from thermodynamic equilibrium …
activity and products distribution was performed from thermodynamic equilibrium …