Recent development in design a state-of-art proton exchange membrane fuel cell from stack to system: Theory, integration and prospective
As an efficient energy converter, the proton exchange membrane fuel cell (PEMFC) is
developed to couple various applications, including portable applications, transportation …
developed to couple various applications, including portable applications, transportation …
[HTML][HTML] Strategic potential of multi-energy system towards carbon neutrality: A forward-looking overview
Carbon neutrality is an ambitious goal that has been promulgated to be achieved on or
before 2060. However, most of the current energy policies focus more on carbon emission …
before 2060. However, most of the current energy policies focus more on carbon emission …
Learning-based CO2 concentration prediction: Application to indoor air quality control using demand-controlled ventilation
There have been increasing concerns over the air quality inside buildings as high levels of
bio-effluents can cause nausea, dizziness, headaches, and fatigue to the people working in …
bio-effluents can cause nausea, dizziness, headaches, and fatigue to the people working in …
A novel triple pressure HRSG integrated with MED/SOFC/GT for cogeneration of electricity and freshwater: Techno-economic-environmental assessment, and multi …
In the present study, a novel integrated energy system comprising a multi-effect desalination
unit (MED) and a solid oxide fuel cell (SOFC) integrated with a gas turbine (GT) is presented …
unit (MED) and a solid oxide fuel cell (SOFC) integrated with a gas turbine (GT) is presented …
A sustainable optimal biomass waste-driven CCHP system to boost the nearly zero energy building concept
The aim of this work is focused on design of a sustainable tri-generation system driven by a
biomass (MSW: municipal solid waste) externally-fired gas turbine cycle and utilizing a …
biomass (MSW: municipal solid waste) externally-fired gas turbine cycle and utilizing a …
[HTML][HTML] A comparative evaluation of alternative optimization strategies for a novel heliostat-driven hydrogen production/injection system coupled with a vanadium …
This paper introduces an innovative and cost-effective multi-generation plant, driven by the
central receiver-based concentrated solar systems, to facilitate the desired global green …
central receiver-based concentrated solar systems, to facilitate the desired global green …
A comprehensive techno-economic assessment of a novel compressed air energy storage (CAES) integrated with geothermal and solar energy
Increasing the renewable energy share in most of the energy sectors is proven to be a vital
option for most countries. Geothermal and solar energy have recently gained utmost …
option for most countries. Geothermal and solar energy have recently gained utmost …
Biomass driven polygeneration systems: A review of recent progress and future prospects
Biomass is the most widely used renewable energy source which is highly appreciated due
to its high availability and non-intermittent nature. Considering problems such as reduction …
to its high availability and non-intermittent nature. Considering problems such as reduction …
Investigation of a hybrid solar thermochemical water-splitting hydrogen production cycle and coal-fueled molten carbonate fuel cell power plant
Increasing electricity demand in the world's energy portfolio and the focus on reducing
carbon emission footprints has led to broad research into flexible and efficient energy …
carbon emission footprints has led to broad research into flexible and efficient energy …
Techno-economic optimization of a biomass gasification energy system with Supercritical CO2 cycle for hydrogen fuel and electricity production
Biomass is considered a carbon–neutral fuel and can play a significant role in obtaining
sustainable energy generation. This study aims to raise the exergy efficiency and reduce …
sustainable energy generation. This study aims to raise the exergy efficiency and reduce …