The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Attributional life cycle assessment of biofuels for shipping: addressing alternative geographical locations and cultivation systems

Attributional life cycle assessment of biofuels for shipping: addressing alternative geographical locations and cultivation systems
Attributional life cycle assessment of biofuels for shipping: addressing alternative geographical locations and cultivation systems

The purpose of this study is to evaluate a life cycle assessment of straight vegetable oil (SVO) and biodiesel addressing alternative upstream pathways. The pathways are SVO and biodiesel produced in the United Kingdom (UK) using European rapeseed and also, SVO and biodiesel produced in the UK using soybean grain and soybean oil imported from Argentina. Four environmental impact categories have been assessed using the SimaPro (ReCiPe life-cycle impact assessment) method: this includes global warming potential (GWP); acidification; eutrophication and particulate matter. Rapeseed based biofuel had the lowest emission impact in terms of GHG emissions. Significant greenhouse gas (GHG) emissions can result from land use change due to the expansion and cultivation of soybean in Argentina. When land use change is not considered, the soy based biofuel system has the lowest GHG impact with more than 70% GHG emission reduction. The GHG emission at cultivation stage far outweighs the impacts of the other life-cycle stages irrespective of the feedstock used for the biofuel production systems. The use of fertilizers and associated soil emissions are the main contributors. The environmental impacts of biofuel can be reduced by avoiding land use change, improving soil management practices and yield, and also optimizing transportation routes. Effective implementation of options for biofuels production were explored to improve sustainability in shipping.

Biodiesel, Emission and shipping, Life cycle assessment, SVO
0301-4797
96-104
Kesieme, Uchenna
f627d0b6-994b-404a-98e0-f90752b34a51
Pazouki, Kayvan
1e69a646-83da-49ce-af3a-c40808c83ffe
Murphy, Alan
8e021dad-0c60-446b-a14e-cddd09d44626
Chrysanthou, Andreas
f145a8a9-2c23-46e1-a0ca-7b3082381889
Kesieme, Uchenna
f627d0b6-994b-404a-98e0-f90752b34a51
Pazouki, Kayvan
1e69a646-83da-49ce-af3a-c40808c83ffe
Murphy, Alan
8e021dad-0c60-446b-a14e-cddd09d44626
Chrysanthou, Andreas
f145a8a9-2c23-46e1-a0ca-7b3082381889

Kesieme, Uchenna, Pazouki, Kayvan, Murphy, Alan and Chrysanthou, Andreas (2019) Attributional life cycle assessment of biofuels for shipping: addressing alternative geographical locations and cultivation systems. Journal of Environmental Management, 235, 96-104. (doi:10.1016/j.jenvman.2019.01.036).

Record type: Article

Abstract

The purpose of this study is to evaluate a life cycle assessment of straight vegetable oil (SVO) and biodiesel addressing alternative upstream pathways. The pathways are SVO and biodiesel produced in the United Kingdom (UK) using European rapeseed and also, SVO and biodiesel produced in the UK using soybean grain and soybean oil imported from Argentina. Four environmental impact categories have been assessed using the SimaPro (ReCiPe life-cycle impact assessment) method: this includes global warming potential (GWP); acidification; eutrophication and particulate matter. Rapeseed based biofuel had the lowest emission impact in terms of GHG emissions. Significant greenhouse gas (GHG) emissions can result from land use change due to the expansion and cultivation of soybean in Argentina. When land use change is not considered, the soy based biofuel system has the lowest GHG impact with more than 70% GHG emission reduction. The GHG emission at cultivation stage far outweighs the impacts of the other life-cycle stages irrespective of the feedstock used for the biofuel production systems. The use of fertilizers and associated soil emissions are the main contributors. The environmental impacts of biofuel can be reduced by avoiding land use change, improving soil management practices and yield, and also optimizing transportation routes. Effective implementation of options for biofuels production were explored to improve sustainability in shipping.

This record has no associated files available for download.

More information

Accepted/In Press date: 13 January 2019
e-pub ahead of print date: 21 January 2019
Published date: 21 January 2019
Additional Information: Funding Information: The financial support of the Engineering and Physical Sciences Research Council (EPSRC) Shipping in Changing Climates project ( EP/K039253/1 ) is gratefully acknowledged.
Keywords: Biodiesel, Emission and shipping, Life cycle assessment, SVO

Identifiers

Local EPrints ID: 483833
URI: http://eprints.soton.ac.uk/id/eprint/483833
DOI: doi:10.1016/j.jenvman.2019.01.036
ISSN: 0301-4797
PURE UUID: 057f85f0-9d9e-4efa-91d5-c34ab1afba9f

Catalogue record

Date deposited: 06 Nov 2023 18:19
Last modified: 17 Mar 2024 13:35

Export record

Altmetrics

Contributors

Author: Uchenna Kesieme
Author: Kayvan Pazouki
Author: Alan Murphy
Author: Andreas Chrysanthou

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×