Clean hydrogen generation and storage strategies via CO 2 utilization into chemicals and fuels: A review

Research output: Contribution to journalReview article

4 Citations (Scopus)

Abstract

Hydrogen becomes one of the most clean energy sources. The major issues on hydrogen are lack of practical clean and high-temperature processes and possible practical storage of clean hydrogen. An energy intensive of clean hydrogen storage via chemical and liquid fuel production route is the current demand. This article reviewed the most recent research for hydrogen (H 2 ) production by using several methods, such as thermochemical process, thermal decomposition, biological approaches, electrolysis, and photocatalytic method. H 2 storage types, including physical and chemical approaches, were also reviewed. The produced H 2 was stored as valuable chemicals and fuels via CO 2 hydrogenation reaction. Reactor designs are the illustrated number of design ranging from the fixed bed to the continuous stirred tank reactor. Catalyst type, catalytic system, and the related mechanism of CO 2 hydrogenation reaction to form alcohol, alkanes, and carboxylic acid were also discussed in detail.

Original languageEnglish
JournalInternational Journal of Energy Research
DOIs
Publication statusPublished - 1 Jan 2019

Fingerprint

Hydrogen
Hydrogenation
Liquid fuels
Hydrogen storage
Carboxylic acids
Electrolysis
Paraffins
Pyrolysis
Alcohols
Catalysts
Temperature

Keywords

  • carbon dioxide
  • catalytic conversion
  • H storage to fuel
  • hydrogen production
  • low-temperature hydrogenation

ASJC Scopus subject areas

  • Renewable Energy, Sustainability and the Environment
  • Nuclear Energy and Engineering
  • Fuel Technology
  • Energy Engineering and Power Technology

Cite this

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title = "Clean hydrogen generation and storage strategies via CO 2 utilization into chemicals and fuels: A review",
abstract = "Hydrogen becomes one of the most clean energy sources. The major issues on hydrogen are lack of practical clean and high-temperature processes and possible practical storage of clean hydrogen. An energy intensive of clean hydrogen storage via chemical and liquid fuel production route is the current demand. This article reviewed the most recent research for hydrogen (H 2 ) production by using several methods, such as thermochemical process, thermal decomposition, biological approaches, electrolysis, and photocatalytic method. H 2 storage types, including physical and chemical approaches, were also reviewed. The produced H 2 was stored as valuable chemicals and fuels via CO 2 hydrogenation reaction. Reactor designs are the illustrated number of design ranging from the fixed bed to the continuous stirred tank reactor. Catalyst type, catalytic system, and the related mechanism of CO 2 hydrogenation reaction to form alcohol, alkanes, and carboxylic acid were also discussed in detail.",
keywords = "carbon dioxide, catalytic conversion, H storage to fuel, hydrogen production, low-temperature hydrogenation",
author = "Bahari, {Nurazni Amat} and {Wan Nor Roslam}, {Wan Isahak} and {Mastar @ Masdar}, {Mohd Shahbudin} and Zahira Yaakob",
year = "2019",
month = "1",
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language = "English",
journal = "International Journal of Energy Research",
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T1 - Clean hydrogen generation and storage strategies via CO 2 utilization into chemicals and fuels

T2 - A review

AU - Bahari, Nurazni Amat

AU - Wan Nor Roslam, Wan Isahak

AU - Mastar @ Masdar, Mohd Shahbudin

AU - Yaakob, Zahira

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Hydrogen becomes one of the most clean energy sources. The major issues on hydrogen are lack of practical clean and high-temperature processes and possible practical storage of clean hydrogen. An energy intensive of clean hydrogen storage via chemical and liquid fuel production route is the current demand. This article reviewed the most recent research for hydrogen (H 2 ) production by using several methods, such as thermochemical process, thermal decomposition, biological approaches, electrolysis, and photocatalytic method. H 2 storage types, including physical and chemical approaches, were also reviewed. The produced H 2 was stored as valuable chemicals and fuels via CO 2 hydrogenation reaction. Reactor designs are the illustrated number of design ranging from the fixed bed to the continuous stirred tank reactor. Catalyst type, catalytic system, and the related mechanism of CO 2 hydrogenation reaction to form alcohol, alkanes, and carboxylic acid were also discussed in detail.

AB - Hydrogen becomes one of the most clean energy sources. The major issues on hydrogen are lack of practical clean and high-temperature processes and possible practical storage of clean hydrogen. An energy intensive of clean hydrogen storage via chemical and liquid fuel production route is the current demand. This article reviewed the most recent research for hydrogen (H 2 ) production by using several methods, such as thermochemical process, thermal decomposition, biological approaches, electrolysis, and photocatalytic method. H 2 storage types, including physical and chemical approaches, were also reviewed. The produced H 2 was stored as valuable chemicals and fuels via CO 2 hydrogenation reaction. Reactor designs are the illustrated number of design ranging from the fixed bed to the continuous stirred tank reactor. Catalyst type, catalytic system, and the related mechanism of CO 2 hydrogenation reaction to form alcohol, alkanes, and carboxylic acid were also discussed in detail.

KW - carbon dioxide

KW - catalytic conversion

KW - H storage to fuel

KW - hydrogen production

KW - low-temperature hydrogenation

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