Hydrogen production from waste gasification followed by membrane filtration: a review
Waste conversion is a major challenge for energy production in the future circular economy.
Waste management aims at producing more energy and recyclable materials, in order to …
Waste management aims at producing more energy and recyclable materials, in order to …
[HTML][HTML] Palladium-alloy membrane reactors for fuel reforming and hydrogen production: Hydrogen Production Modeling
Endeavors have recently been concentrated on minimizing the dependency on fossil fuels in
order to mitigate the ever-increasing problem of greenhouse gas (GHG) emissions …
order to mitigate the ever-increasing problem of greenhouse gas (GHG) emissions …
Effect of temperature and heat flux boundary conditions on hydrogen production in membrane-integrated steam-methane reformer
R Ben-Mansour, MA Haque, MA Habib, S Paglieri… - Applied Energy, 2023 - Elsevier
In order to operate reforming plants at maximum efficiency it is important to investigate their
operation under various conditions. This study aims to perform a comprehensive …
operation under various conditions. This study aims to perform a comprehensive …
[HTML][HTML] Membrane reactors for hydrogen generation: From single stage to integrated systems
M Binazadeh, S Mamivand, R Sohrabi… - International Journal of …, 2023 - Elsevier
The excessive production of carbon dioxide, the greenhouse effect, and the resulting global
warming due to the use of fossil fuels have prompted governments, industry, and …
warming due to the use of fossil fuels have prompted governments, industry, and …
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 …
CFD simulation of methane steam reforming in a membrane reactor: Performance characteristics over range of operating window
Methane steam reforming is the most widely used pathway for hydrogen production. In this
context, the use of a fixed bed catalytic reactor with a hydrogen-selective membrane is one …
context, the use of a fixed bed catalytic reactor with a hydrogen-selective membrane is one …
Comprehensive parametric investigation of methane reforming and hydrogen separation using a CFD model
Steam-methane reforming is the primary method for industrial hydrogen production. High
energy consumption and elevated greenhouse gas (GHG) emissions call for a significant …
energy consumption and elevated greenhouse gas (GHG) emissions call for a significant …
Synthesis of magnetically responsive hyperbranched polyamidoamine based on the graphene oxide: application as demulsifier for oil‐in‐water emulsions
Y Chen, G Tian, H Liang, Y Liang - International Journal of …, 2019 - Wiley Online Library
In this study, a novel, highly efficient, and magnetically responsive demulsifier, namely,
Fe3O4@ hyperbranched polyamidoamine‐graphene oxide (MKh‐GO), was synthesized …
Fe3O4@ hyperbranched polyamidoamine‐graphene oxide (MKh‐GO), was synthesized …
Design and multiobjective optimization of membrane steam methane reformer: A computational fluid dynamic analysis
A membrane reactor affords promising advantages for processes; however, it faces many
issues such as the high cost, manufacturing complexity, and ineffective zones. In this …
issues such as the high cost, manufacturing complexity, and ineffective zones. In this …
Numerical analysis of steam methane reforming over a novel multi‐concentric rings Ni/Al2O3 catalyst pattern
Herein, a 2D numerical analysis is conducted to study the steam methane reforming reaction
(SMR), which is the dominant method for hydrogen production, over a packed bed reactor …
(SMR), which is the dominant method for hydrogen production, over a packed bed reactor …