Adsorption Technology to Optimize Hydrogen Production Processes: From Fundamental Research to Process Design
A special issue of Energies (ISSN 1996-1073). This special issue belongs to the section "A5: Hydrogen Energy".
Deadline for manuscript submissions: closed (30 June 2022) | Viewed by 11877
Special Issue Editors
Interests: adsorption; carbon capture; ionic liquids; kinetic modelling; fractal dynamics in heterogeneous processes
Interests: chemical process engineering; carbon capture storage and utilization; hydrogen; water-energy nexus
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Special Issue Information
Dear Colleagues,
We invite submission of original contributions to a Special Issue of the journal Energies on the recent developments in adsorption technology applied to hydrogen production and separation processes.
Nowadays hydrogen is gaining an ever-increasing importance in different sectors such as energy production, chemical industry, metallurgy and food processing. The development of high-efficiency processes for increasing the productivity and purity of H2 is mandatory to foster the commercialization of advanced production technologies. Moreover, hydrogen production processes are fundamental in many decarbonization pathways including the generation of hydrogen-rich mixtures from fossil fuels, and contextually separating CO2 (pre-combustion schemes). Adsorption represents a versatile and low-cost purification technology which can play a key-role in this framework.
Potential topics of this Special Issue include, but are not limited to:
- Adsorption of gaseous species (e.g. H2S, H2O, hydrocarbons) from gaseous streams (e.g. natural gas) in reforming processes;
- CO2 adsorption from CO2/H2 mixtures in pre-combustion plants;
- Sorption-enhanced gasification or sorption-enhanced steam reforming of different feedstocks (e.g. fossil fuels or biomasses).
We welcome papers dealing with: i) experimental and theoretical adsorption studies on conventional (e.g. activated carbons, zeolites, CaO) and emerging sorbents (e.g. MOF, carbon nanotubes), where thermodynamic, kinetic, and thermo/fluid-dynamic analyses are performed; ii) relationships between sorbent properties and adsorption performances also predicted by means of machine learning (e.g. artificial neural network, ANN) and statistical thermodynamic methods; iii) reactor configuration (e.g. fixed, rotating and fluidized beds), sorbent regeneration and plant design (e.g. temperature, pressure, vacuum, electric swing adsorption) also with the integration of renewable energy sources; iv) process and techno-economic analysis also via commercial software and by implementing other methodologies (exergy analysis, exergoeconomic analysis, life cycle assessment).
Dr. Marco Balsamo
Prof. Mauro Capocelli
Guest Editors
Manuscript Submission Information
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Keywords
- Hydrogen
- Adsorption
- Sorption-enhanced processes
- Carbon capture
- Thermodynamics
- Kinetics
- Transport phenomena
- Fluid-dynamics
- Machine learning
- Fixed beds
- Rotating beds
- Fluidized beds
- Calcium looping
- Swing adsorption processes
- Sorbent regeneration
- Plant design & economics
- Process analysis
- Process simulation
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