Low carbon strategies for sustainable bio-alkane gas production and renewable energy

Propane and butane are the main constituents of liquefied petroleum gas and are used extensively for transport and domestic use. They are clean burning fuels, suitable for the development of low carbon footprint fuel and energy policies. Here, we present blueprints for the production of bio-alkane g...

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Published inEnergy & environmental science Vol. 13; no. 6; pp. 1818 - 1831
Main Authors Amer, Mohamed, Wojcik, Emilia Z, Sun, Chenhao, Hoeven, Robin, Hughes, John M. X, Faulkner, Matthew, Yunus, Ian Sofian, Tait, Shirley, Johannissen, Linus O, Hardman, Samantha J. O, Heyes, Derren J, Chen, Guo-Qiang, Smith, Michael H, Jones, Patrik R, Toogood, Helen S, Scrutton, Nigel S
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 18.06.2020
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Abstract Propane and butane are the main constituents of liquefied petroleum gas and are used extensively for transport and domestic use. They are clean burning fuels, suitable for the development of low carbon footprint fuel and energy policies. Here, we present blueprints for the production of bio-alkane gas (propane and butane) through the conversion of waste volatile fatty acids by bacterial culture. We show that bio-propane and bio-butane can be produced photo-catalytically by bioengineered strains of E. coli and Halomonas (in non-sterile seawater) using fatty acids derived from biomass or industrial waste, and by Synechocystis (using carbon dioxide as feedstock). Scaled production using available infrastructure is calculated to be economically feasible using Halomonas . These fuel generation routes could be deployed rapidly, in both advanced and developing countries, and contribute to energy security to meet global carbon management targets and clean air directives. Strategy for bio-alkane gas (propane and butane) production through the conversion of waste volatile fatty acids by bacterial cultures.
AbstractList Propane and butane are the main constituents of liquefied petroleum gas and are used extensively for transport and domestic use. They are clean burning fuels, suitable for the development of low carbon footprint fuel and energy policies. Here, we present blueprints for the production of bio-alkane gas (propane and butane) through the conversion of waste volatile fatty acids by bacterial culture. We show that bio-propane and bio-butane can be produced photo-catalytically by bioengineered strains of E. coli and Halomonas (in non-sterile seawater) using fatty acids derived from biomass or industrial waste, and by Synechocystis (using carbon dioxide as feedstock). Scaled production using available infrastructure is calculated to be economically feasible using Halomonas. These fuel generation routes could be deployed rapidly, in both advanced and developing countries, and contribute to energy security to meet global carbon management targets and clean air directives.
Propane and butane are the main constituents of liquefied petroleum gas and are used extensively for transport and domestic use. They are clean burning fuels, suitable for the development of low carbon footprint fuel and energy policies. Here, we present blueprints for the production of bio-alkane gas (propane and butane) through the conversion of waste volatile fatty acids by bacterial culture. We show that bio-propane and bio-butane can be produced photo-catalytically by bioengineered strains of E. coli and Halomonas (in non-sterile seawater) using fatty acids derived from biomass or industrial waste, and by Synechocystis (using carbon dioxide as feedstock). Scaled production using available infrastructure is calculated to be economically feasible using Halomonas . These fuel generation routes could be deployed rapidly, in both advanced and developing countries, and contribute to energy security to meet global carbon management targets and clean air directives. Strategy for bio-alkane gas (propane and butane) production through the conversion of waste volatile fatty acids by bacterial cultures.
Author Toogood, Helen S
Hughes, John M. X
Hardman, Samantha J. O
Chen, Guo-Qiang
Jones, Patrik R
Johannissen, Linus O
Hoeven, Robin
Faulkner, Matthew
Tait, Shirley
Amer, Mohamed
Yunus, Ian Sofian
Smith, Michael H
Sun, Chenhao
Heyes, Derren J
Scrutton, Nigel S
Wojcik, Emilia Z
AuthorAffiliation The University of Manchester
Manchester Institute of Biotechnology and School of Chemistry
Tsinghua University
Department of Life Sciences
EPSRC/BBSRC Future Biomanufacturing Research Hub
Imperial College London
BBSRC/EPSRC Synthetic Biology Research Centre
C3 Biotechnologies Ltd
School of Life Sciences
The Railway Goods Yard
AuthorAffiliation_xml – name: The Railway Goods Yard
– name: Department of Life Sciences
– name: BBSRC/EPSRC Synthetic Biology Research Centre
– name: Imperial College London
– name: Tsinghua University
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– name: C3 Biotechnologies Ltd
– name: The University of Manchester
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Snippet Propane and butane are the main constituents of liquefied petroleum gas and are used extensively for transport and domestic use. They are clean burning fuels,...
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StartPage 1818
SubjectTerms Alkanes
Bioengineering
Burning
Butane
Carbon
Carbon dioxide
Clean energy
Developing countries
E coli
Energy policy
Energy security
Environmental impact
Fatty acids
Fuels
Gas production
Halomonas
Industrial wastes
LDCs
Liquefied petroleum gas
Oil and gas production
Propane
Renewable energy
Seawater
Security
Volatile fatty acids
Title Low carbon strategies for sustainable bio-alkane gas production and renewable energy
URI https://www.proquest.com/docview/2414661378
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