Exergetic life cycle assessment of new waste aluminium treatment system with co-production of pressurized hydrogen and aluminium hydroxide

Takehito Hiraki; Tomohiro Akiyama

doi:10.1016/j.ijhydene.2008.09.073

Exergetic life cycle assessment of new waste aluminium treatment system with co-production of pressurized hydrogen and aluminium hydroxide

Takehito Hiraki, Tomohiro Akiyama

ENG - Metallurgy

Hokkaido University

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

A new system is proposed for the treatment of waste aluminium. The total exergy loss (EXL) in the system for the co-production of 1 kg of hydrogen at 30 MPa and 26 kg of aluminium hydroxide is evaluated from the viewpoint of life cycle assessment (LCA) by comparison with the EXLs in conventional systems. The exergy flow diagram reveals that the exergy of waste aluminium, which contains only 15 mass% metal, is still large, while that of pure aluminium hydroxide is relatively small. Therefore, the EXL in the proposed system (150.9 MJ) is 55% less than that in the conventional system (337.7 MJ) in which the gas compressor and production of aluminium hydroxide consume significantly more exergy. The results also indicate that exergy analysis should be applied to the LCA as a critical measure for practical use, in addition to the conventional LCA of carbon dioxide emission.

Original language	English
Pages (from-to)	153-161
Number of pages	9
Journal	International Journal of Hydrogen Energy
Volume	34
Issue number	1
DOIs	https://doi.org/10.1016/j.ijhydene.2008.09.073
Publication status	Published - 2009 Jan

Keywords

Aluminium hydroxide
Co-production
Exergy
High-pressure hydrogen
Hydrogen
Life cycle assessment
Waste aluminium

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ijhydene.2008.09.073

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title = "Exergetic life cycle assessment of new waste aluminium treatment system with co-production of pressurized hydrogen and aluminium hydroxide",

abstract = "A new system is proposed for the treatment of waste aluminium. The total exergy loss (EXL) in the system for the co-production of 1 kg of hydrogen at 30 MPa and 26 kg of aluminium hydroxide is evaluated from the viewpoint of life cycle assessment (LCA) by comparison with the EXLs in conventional systems. The exergy flow diagram reveals that the exergy of waste aluminium, which contains only 15 mass% metal, is still large, while that of pure aluminium hydroxide is relatively small. Therefore, the EXL in the proposed system (150.9 MJ) is 55% less than that in the conventional system (337.7 MJ) in which the gas compressor and production of aluminium hydroxide consume significantly more exergy. The results also indicate that exergy analysis should be applied to the LCA as a critical measure for practical use, in addition to the conventional LCA of carbon dioxide emission.",

keywords = "Aluminium hydroxide, Co-production, Exergy, High-pressure hydrogen, Hydrogen, Life cycle assessment, Waste aluminium",

author = "Takehito Hiraki and Tomohiro Akiyama",

note = "Funding Information: The authors thank Chuo Aoyama PWC Sustainability Research Institute for providing assistance in the life cycle assessment. This study was supported by the project {\textquoteleft}The Model of Green-Hydrogen Community in Honjo-Waseda area{\textquoteright} of the Ministry of the Environment, Japan, and a Grant-in-Aid for Scientific Research (Grant No. B-17360365) by the Japan Society for the Promotion of Science (JSPS). ",

year = "2009",

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doi = "10.1016/j.ijhydene.2008.09.073",

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AU - Hiraki, Takehito

AU - Akiyama, Tomohiro

N1 - Funding Information: The authors thank Chuo Aoyama PWC Sustainability Research Institute for providing assistance in the life cycle assessment. This study was supported by the project ‘The Model of Green-Hydrogen Community in Honjo-Waseda area’ of the Ministry of the Environment, Japan, and a Grant-in-Aid for Scientific Research (Grant No. B-17360365) by the Japan Society for the Promotion of Science (JSPS).

PY - 2009/1

Y1 - 2009/1

N2 - A new system is proposed for the treatment of waste aluminium. The total exergy loss (EXL) in the system for the co-production of 1 kg of hydrogen at 30 MPa and 26 kg of aluminium hydroxide is evaluated from the viewpoint of life cycle assessment (LCA) by comparison with the EXLs in conventional systems. The exergy flow diagram reveals that the exergy of waste aluminium, which contains only 15 mass% metal, is still large, while that of pure aluminium hydroxide is relatively small. Therefore, the EXL in the proposed system (150.9 MJ) is 55% less than that in the conventional system (337.7 MJ) in which the gas compressor and production of aluminium hydroxide consume significantly more exergy. The results also indicate that exergy analysis should be applied to the LCA as a critical measure for practical use, in addition to the conventional LCA of carbon dioxide emission.

AB - A new system is proposed for the treatment of waste aluminium. The total exergy loss (EXL) in the system for the co-production of 1 kg of hydrogen at 30 MPa and 26 kg of aluminium hydroxide is evaluated from the viewpoint of life cycle assessment (LCA) by comparison with the EXLs in conventional systems. The exergy flow diagram reveals that the exergy of waste aluminium, which contains only 15 mass% metal, is still large, while that of pure aluminium hydroxide is relatively small. Therefore, the EXL in the proposed system (150.9 MJ) is 55% less than that in the conventional system (337.7 MJ) in which the gas compressor and production of aluminium hydroxide consume significantly more exergy. The results also indicate that exergy analysis should be applied to the LCA as a critical measure for practical use, in addition to the conventional LCA of carbon dioxide emission.

KW - Aluminium hydroxide

KW - Co-production

KW - Exergy

KW - High-pressure hydrogen

KW - Hydrogen

KW - Life cycle assessment

KW - Waste aluminium

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Exergetic life cycle assessment of new waste aluminium treatment system with co-production of pressurized hydrogen and aluminium hydroxide

Abstract

Keywords

UN SDGs

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