Integrated solar-driven hydrogen generation by pyrolysis and electrolysis coupled with carbon capture and Rankine cycle

Onwuemezie, Linus; Darabkhani, Hamidreza Gohari; Moghimi, M.A.

doi:10.1016/j.enconman.2022.116641

Cited by 17 publications

(2 citation statements)

References 46 publications

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“…The simulation results show the significance of considering thermal power recovery and hydrogen generation in the fuel cell model for supporting part of the heat demand. In [48], integrating small-scale biohydrogen production systems with renewable energy sources like solar and wind to facilitate a sustainable hydrogen economy is investigated. These integrated systems employ advanced technologies such as anaerobic fermentation microbial electrolysis cells and microbial fuel cells, coupled with electrolysis of water and hydrogen fuel cells, to efficiently produce hydrogen.…”

Section: Hydrogen Transport and Utilizationmentioning

confidence: 99%

A Review of the Role of Hydrogen in the Heat Decarbonization of Future Energy Systems: Insights and Perspectives

Ameli,

Strbac,

Pudjianto

et al. 2024

Energies

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Hydrogen is an emerging technology changing the context of heating with cleaner combustion than traditional fossil fuels. Studies indicate the potential to repurpose the existing natural gas infrastructure, offering consumers a sustainable, economically viable option in the future. The integration of hydrogen in combined heat and power systems could provide residential energy demand and reduce environmental emissions. However, the widespread adoption of hydrogen will face several challenges, such as carbon dioxide emissions from the current production methods and the need for infrastructure modification for transport and safety. Researchers indicated the viability of hydrogen in decarbonizing heat, while some studies also challenged its long-term role in the future of heating. In this paper, a comprehensive literature review is carried out by identifying the following key aspects, which could impact the conclusion on the overall role of hydrogen in heat decarbonization: (i) a holistic view of the energy system, considering factors such as renewable integration and system balancing; (ii) consumer-oriented approaches often overlook the broader benefits of hydrogen in emission reduction and grid stability; (iii) carbon capture and storage scalability is a key factor for large-scale production of low-emission blue hydrogen; (iv) technological improvements could increase the cost-effectiveness of hydrogen; (v) the role of hydrogen in enhancing resilience, especially during extreme weather conditions, raises the potential of hydrogen as a flexible asset in the energy infrastructure for future energy supply; and finally, when considering the UK as a basis case, (vi) incorporating factors such as the extensive gas network and unique climate conditions, necessitates specific strategies.

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Section: Hydrogen Transport and Utilizationmentioning

confidence: 99%

A Review of the Role of Hydrogen in the Heat Decarbonization of Future Energy Systems: Insights and Perspectives

Ameli,

Strbac,

Pudjianto

et al. 2024

Energies

View full text Add to dashboard Cite

show abstract

“…Most recently, biohydrogen was found to be significant in alternative energy for a high calorific value of 142 kJ/g [ 5 ], clean combustion [ 6 ], and limiting pollutants [ 7 ]. The hydrogen fuel was extracted from bio-wastes like sewage sludge [ 8 ], coal, sawdust, and microalgae [ 9 ] via pyrolysis [ 10 ], Multipurpose solar-driven [ 11 ] and integrated systems [ 12 ], gasification with high heating rate batch reactor [ 13 ], supercritical water gasification [ 14 ] techniques. Among the various techniques, hydrothermal gasification promises energy recovery from solid and water waste [ 15 ].…”

Section: Introductionmentioning

confidence: 99%

Production of green hydrogen from sewage sludge / algae in agriculture diesel engine: Performance Evaluation

Rathinavelu,

Kulandaivel,

Pandey

et al. 2024

Heliyon

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Transforming Farm Agro Waste into Valuable Resources: A Guide to Sustainable Agriculture and Economic Growth

Rao,

Srividya,

Bhemavarapu

et al. 2024

From Waste to Wealth

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Integrated solar-driven hydrogen generation by pyrolysis and electrolysis coupled with carbon capture and Rankine cycle

Cited by 17 publications

References 46 publications

A Review of the Role of Hydrogen in the Heat Decarbonization of Future Energy Systems: Insights and Perspectives

A Review of the Role of Hydrogen in the Heat Decarbonization of Future Energy Systems: Insights and Perspectives

Production of green hydrogen from sewage sludge / algae in agriculture diesel engine: Performance Evaluation

Transforming Farm Agro Waste into Valuable Resources: A Guide to Sustainable Agriculture and Economic Growth

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