On the technology of solid oxide fuel cell (SOFC) energy systems for stationary power generation: A review
O Corigliano, L Pagnotta, P Fragiacomo - Sustainability, 2022 - mdpi.com
This paper presents a comprehensive overview on the current status of solid oxide fuel cell
(SOFC) energy systems technology with a deep insight into the techno-energy performance …
(SOFC) energy systems technology with a deep insight into the techno-energy performance …
Electricity-driven reactors that promote thermochemical catalytic reactions via joule and induction heating: a review
Renewable electricity has become a more accessible, flexible, and widespread form of
energy that is expected to help achieve carbon neutrality by 2050. The electrification of …
energy that is expected to help achieve carbon neutrality by 2050. The electrification of …
Electrified methane reforming: A compact approach to greener industrial hydrogen production
ST Wismann, JS Engbæk, SB Vendelbo, FB Bendixen… - Science, 2019 - science.org
Electrification of conventionally fired chemical reactors has the potential to reduce CO2
emissions and provide flexible and compact heat generation. Here, we describe a disruptive …
emissions and provide flexible and compact heat generation. Here, we describe a disruptive …
Techno-economic analysis and optimization of a novel hybrid solar-wind-bioethanol hydrogen production system via membrane reactor
With the rapid development of hydrogen fuel cell vehicles, efficient and convenient
production of green hydrogen is important to reduce carbon emissions. Considering the …
production of green hydrogen is important to reduce carbon emissions. Considering the …
A compact catalytic foam reactor for decomposition of ammonia by the Joule-heating mechanism
Ammonia (NH 3) is a viable hydrogen (H 2) carrier that allows storage and transport of H 2
using well-established infrastructure while maintaining high H 2 storage density. However …
using well-established infrastructure while maintaining high H 2 storage density. However …
Fuel production using membrane reactors: a review
Population growth has led to higher consumption of fossil fuel, and subsequently to a major
increase of greenhouse gases emissions to the atmosphere, thus inducing global warming …
increase of greenhouse gases emissions to the atmosphere, thus inducing global warming …
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 …
Bioethanol production: An overview
I Edeh - Bioethanol technologies, 2021 - books.google.com
Bioethanol is currently being considered as a potential replacement for the conventional
gasoline, especially as it possesses similar and some superior qualities enabling reduction …
gasoline, especially as it possesses similar and some superior qualities enabling reduction …
Electrified methane reforming: understanding the dynamic interplay
ST Wismann, JS Engbæk, SB Vendelbo… - Industrial & …, 2019 - ACS Publications
Electrification of endothermic reactions has the potential to provide a compact and flexible
reactor concept, and at the same time, substantially reduce CO2 emissions relative to …
reactor concept, and at the same time, substantially reduce CO2 emissions relative to …
MMT-supported Ni/TiO2 nanocomposite for low temperature ethanol steam reforming toward hydrogen production
Ni/TiO 2 nanoparticles dispersed on montmorillonite (MMT) clay with different sizes for
selective ethanol steam reforming with regard to hydrogen production has been …
selective ethanol steam reforming with regard to hydrogen production has been …