A review of CO2 sorbents for promoting hydrogen production in the sorption-enhanced steam reforming process
Abstract Sorption-enhanced-steam-reforming (SESR) is a thermochemical conversion
technology that produces a high-purity hydrogen stream by utilizing in-situ removal of CO 2 …
technology that produces a high-purity hydrogen stream by utilizing in-situ removal of CO 2 …
[HTML][HTML] Recent advances and prospects in high purity H2 production from sorption enhanced reforming of bio-ethanol and bio-glycerol as carbon negative processes …
Hydrogen has wide applications in the chemical and petroleum industries and is a clean
energy carrier for electrical power generation and transportation. However, in current …
energy carrier for electrical power generation and transportation. However, in current …
[HTML][HTML] Catalytic conversion of bioethanol to value-added chemicals and fuels: A review
H Xiang, R Xin, N Prasongthum, P Natewong… - … Chemicals and Materials, 2022 - Elsevier
Bioethanol produced via valorisation of renewable biomass is of great interest to many
industries. The increased availability and decreased cost of bioethanol make it a promising …
industries. The increased availability and decreased cost of bioethanol make it a promising …
Comprehensive investigation of CO 2 adsorption on Mg–Al–CO 3 LDH-derived mixed metal oxides
Layered double hydroxides (LDHs) have been intensively studied for high-temperature CO2
capture. However, big differences in the CO2 capture capacity, ranging from 0.28 to 0.6 …
capture. However, big differences in the CO2 capture capacity, ranging from 0.28 to 0.6 …
Production of oxygen-containing fuels via supercritical methanol hydrodeoxygenation of lignin bio-oil over Cu/CuZnAlOx catalyst
Practical, economical, and high-selectivity methods of lignin bio-oil upgrading could greatly
increase biorefinery productivity and profitability. Herein, we report the efficient production of …
increase biorefinery productivity and profitability. Herein, we report the efficient production of …
Development of CuO/ZnO/Al2O3-hydrotalcite− based catalysts for middle temperature water gas shift reaction: Impact of calcination temperature and residual …
A series of Cu/ZnO/Al2O 3 catalysts are synthesized using a reverse co-precipitation method
and subjected to calcination at different temperatures ranging from 300 to 650° C …
and subjected to calcination at different temperatures ranging from 300 to 650° C …
Dimethyl carbonate synthesis from propylene carbonate with methanol using Cu–Zn–Al catalyst
In the present study, Cu-Zn-Al (CZA) hydrotalcite catalysts prepared by the coprecipitation
method and calcined at 300, 500 and 800° C (named as CZA300, CZA500 and CZA800) …
method and calcined at 300, 500 and 800° C (named as CZA300, CZA500 and CZA800) …
Recent advances in materials for high purity H2 production by ethanol and glycerol steam reforming
This review focuses on the recent advances in CO 2 adsorbents and H 2 permselective
membranes that can be integrated to catalytic ethanol and glycerol steam reforming for …
membranes that can be integrated to catalytic ethanol and glycerol steam reforming for …
Optimal methanol production via sorption-enhanced reaction process
To counter the equilibrium limitations in traditional methanol production from synthesis gas,
a periodic and sorption-enhanced methanol synthesis process (SE-MeOH) with in situ …
a periodic and sorption-enhanced methanol synthesis process (SE-MeOH) with in situ …
Cerium-promoted bi-functional hybrid materials made of Ni, Co and hydrotalcite for sorption-enhanced steam methane reforming (SESMR)
Multifunctional hybrid materials are promising for high-purity hydrogen (H 2) production via
catalytic steam reforming coupled with low temperature on-site CO 2 capture. In the present …
catalytic steam reforming coupled with low temperature on-site CO 2 capture. In the present …