Geographical information system based fuzzy multi criteria analysis for sustainability assessment of biomass energy plant siting: A case study in Queensland, Australia

Geographical information system based fuzzy multi criteria analysis for sustainability assessment of biomass energy plant siting: A case study in Queensland, Australia

Biomass energy has huge potential in helping to achieve a renewable energy target to combat climate change. Many countries like Australia have huge potential for biomass energy supply from second generation biomass resources, however, the limited knowledge on the potential of these biomass resources...

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Bibliographic Details
Published in:Land use policy Vol. 114; p. 105986
Main Authors: Jayarathna, Lasinidu, Kent, Geoff, O’Hara, Ian, Hobson, Philip
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-03-2022
Elsevier Science Ltd
Subjects:
Bioelectricity
Biofuels
Biomass
Biomass energy
Biomass energy plants
Biomass energy production
Case studies
Climate change
Criteria
Electricity
Energy
Energy policy
Fuzzy multi criteria analysis
Geographic information systems
Geographical information system
Land use
Power plants
Public policy
Renewable energy
Second generation biomass
Sustainability
Sustainable use
Thermal energy
Queensland Australia
Australia
Biomass energy plants
Fuzzy multi criteria analysis
Geographical information system
Second generation biomass
Sustainability
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Summary:Biomass energy has huge potential in helping to achieve a renewable energy target to combat climate change. Many countries like Australia have huge potential for biomass energy supply from second generation biomass resources, however, the limited knowledge on the potential of these biomass resources could be a barrier to its uptake. This study developed a geographical information system based fuzzy multi criteria analysis (GIS based Fuzzy-MCA) to identify and prioritise the suitability of biomass energy plant sites for the sustainable use of biomass. The analysis was carried out in Queensland, Australia as a case study, demonstrating the potential of multiple biomass types for multiple products (thermal energy and bioelectricity supply). Using local sustainability constraints and criteria, the study identified potential biomass energy plant (57) sites in the East, South-East and North-West regions of the state where there are vacant lands and required infrastructure. Moreover, the high-resolution assessment of sustainably available biomass can have a significant impact on suitability of the location and the plant capacity. The potential biomass energy plants could generate electricity satisfying a substantial portion of Australian bioelectricity goals and mandates. The methodology could further be used in national-scale assessment, considering biomass incentive programs and government policies to maximise public benefit and private investment. •A GIS tool for locating biomass energy plant sites using sustainability criteria.•A high-resolution biomass assessment for identifying biomass supply areas.•57 potentially suitable sites for thermal energy and bioelectricity generation.•Potential plants can meet more than half of national bioelectricity targets in 2020.
ISSN:0264-8377
1873-5754
DOI:10.1016/j.landusepol.2022.105986