Recent developments on carbon neutrality through carbon dioxide capture and utilization with clean hydrogen for production of alternative fuels for smart cities

Recent developments on carbon neutrality through carbon dioxide capture and utilization with clean hydrogen for production of alternative fuels for smart cities

This review comprehensively evaluates the integration of solar-powered electrolytic hydrogen (H2) production and captured carbon dioxide (CO2) management for clean fuel production, considering all potential steps from H2 production methods to CO2 capture and separation processes. It is expected that...

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Bibliographic Details
Published in:International journal of hydrogen energy Vol. 79; pp. 551 - 578
Main Authors: Goren, A. Yagmur, Dincer, Ibrahim, Gogoi, Subrata Borgohain, Boral, Pranab, Patel, Dipal
Format: Journal Article
Language:English
Published: Elsevier Ltd 19-08-2024
Subjects:
Carbon capturing
Clean fuels
Hydrogen
Hydrogen production
Hydrogen storage
Hydrogen utilization
Renewables
Sustainable development
Carbon capturing
Hydrogen storage
Clean fuels
Hydrogen
Hydrogen utilization
Sustainable development
Hydrogen production
Renewables
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Summary:This review comprehensively evaluates the integration of solar-powered electrolytic hydrogen (H2) production and captured carbon dioxide (CO2) management for clean fuel production, considering all potential steps from H2 production methods to CO2 capture and separation processes. It is expected that the near future will cover CO2-capturing technologies integrated with solar-based H2 production at a commercially viable level, and over 5 billion tons of CO2 are expected to be utilized potentially for clean fuel production worldwide in 2050 to achieve carbon-neutral levels. The H2 production out of hydrocarbon-based processes using fossil fuels emits greenhouse gas emissions of 17-38 kg CO2/kg H2. On the other hand, . renewable energy based green hydrogen production emits less than 2 kg CO2/kg H2 which makes it really clean and appealing for implementation. In addition, capturing CO2 and using for synthesizing alternative fuels with green hydrogen will help generate clean fuels for smart cities. In this regard, the most sustainable and promising CO2 capturing method is post-combustion with an adsorption-separation-desorption processes using monoethanolamine adsorbent with high CO2 removal efficiencies from flue gases. Consequently, this review article provides perspectives on the potential of integrating CO2-capturing technologies and renewable energy-based H2 production systems for clean production to create sustainable cities and communities. [Display omitted] •Carbon capture-storage and H2 production technologies are comprehensively reviewed.•Clean fuel production technologies from captured CO2 and produced H2 are evaluated.•Renewable-powered integrated systems for clean fuel production are proposed.•Solar-powered H2 production from water is a promising solution in integrated systems.•Promising carbon management and green energy support sustainable cities and communities.
ISSN:0360-3199
DOI:10.1016/j.ijhydene.2024.06.421