Sorption enhanced steam reforming of biomass-based feedstocks: Towards sustainable hydrogen evolution
S Guo, Y Zhang, L Liu - Chemical Engineering Journal, 2024 - Elsevier
Hydrogen stands out as a highly promising clean fuel for the future, owing to its high energy
density and zero carbon emissions during its utilization. Biomass, as a renewable energy …
density and zero carbon emissions during its utilization. Biomass, as a renewable energy …
Comprehensive review of nickel-based catalysts advancements for CO2 methanation
This study reviews the advancements in nickel-based catalysts for carbon dioxide
methanation, a key process for reducing greenhouse gas emissions and supporting …
methanation, a key process for reducing greenhouse gas emissions and supporting …
Ni–MgO catalyst prepared by a sol-gel method for low temperature CO2 methanation
CO 2 methanation presents a promising route to simultaneously reduce CO 2 emissions and
store renewable energy. Nickel supported on magnesium oxide (Ni–MgO) stands out as an …
store renewable energy. Nickel supported on magnesium oxide (Ni–MgO) stands out as an …
Ce enhanced RuNi alloy multi-metal synergic hydrotalcite oxide derived catalyst for high performance CO2 methanation
Q Ye, S Li, Y Liao, Y Wang, Y He, J Chen, J Xu… - Chemical Engineering …, 2024 - Elsevier
Ni-based methanation catalysts have problems such as low temperature activity and easy
sintering. The high cost of supported Ru-based methanation catalysts limits their application …
sintering. The high cost of supported Ru-based methanation catalysts limits their application …
Auto‐pressurized multi‐stage tesla‐valve type microreactors in carbon monoliths obtained through 3D printing: Impact of design on fluid dynamics and catalytic activity
A Parra‐Marfil, CG Aguilar‐Madera… - Advanced Functional …, 2024 - Wiley Online Library
The present research exploits an innovative methodology for producing auto‐pressurized
carbon microreactors with a precise and controlled structure analyzing the influence of their …
carbon microreactors with a precise and controlled structure analyzing the influence of their …
Integrating capture and methanation of CO2 using physical mixtures of Na-Al2O3 and mono-/bimetallic (Ru) Ni/Pr-CeO2
The integrated capture and methanation of CO 2 is hereby realized via the use of physical
mixtures of a 12% Na 2 O/Al 2 O 3 adsorbent and either a monometallic (10% Ni/Pr-CeO 2) …
mixtures of a 12% Na 2 O/Al 2 O 3 adsorbent and either a monometallic (10% Ni/Pr-CeO 2) …
From CO2 to value added chemicals: The promise of single atom catalysts
As the research community works towards the development of new catalytic materials
aiming to overcome the main problem of today's catalysts (eg, low selectivity and stability) …
aiming to overcome the main problem of today's catalysts (eg, low selectivity and stability) …
Construction of robust Ni-based catalysts for low-temperature Sabatier reaction
CO2 hydrogenation to methane, namely, CO2 methanation or Sabatier reaction, is a
significant approach to convert CO2 and H2 to storable and transportable CH4. Low reaction …
significant approach to convert CO2 and H2 to storable and transportable CH4. Low reaction …
[HTML][HTML] Novel Ni–Ru/CeO2 catalysts for low-temperature steam reforming of methane
Upgrading of biogas and biomethane into H 2-rich streams by steam reforming is regarded
as an effective strategy to reduce fossil fuel consumption contributing to the transition …
as an effective strategy to reduce fossil fuel consumption contributing to the transition …
Benchmarking potential catalysts and choice of descriptor for CO2 methanation using transition metal based catalysts
Abstract Supported Pt, Pd, Rh, Ru as Noble and Ni, bimetallic Ni-M (M= Co, Cu, Fe, with
Ni/M= 3: 1 by weight) as Non-noble catalysts were synthesized, characterized, and tested for …
Ni/M= 3: 1 by weight) as Non-noble catalysts were synthesized, characterized, and tested for …