Biomass energy production in agriculture: A weighted goal programming analysis

Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A...

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Veröffentlicht in:	Energy policy Jg. 39; H. 3; S. 1123 - 1131
Hauptverfasser:	Ballarin, A., Vecchiato, D., Tempesta, T., Marangon, F., Troiano, S.
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	Kidlington Elsevier Ltd 01.03.2011 Elsevier Elsevier Science Ltd
Schriftenreihe:	Energy Policy
Schlagworte:	Agricultural economics Agricultural production Agriculture Agronomy. Soil science and plant productions Applied sciences Availability bioenergy Biofuels Biological and medical sciences Biomass Biomass energy Biomass energy production biomass production Biomass Renewable energy Land use Climate change Climate effects Constraints Crops Dependency Economic data Energy Energy economics Energy planning Energy policy Exact sciences and technology farm income Farmers Fossil fuels Fundamental and applied biological sciences. Psychology General, economic and professional studies Generalities. Biometrics, experimentation. Remote sensing Global warming Goal programming Green energy Income Italy labor Land use Land utilization Low income groups Methodology. Modelling Natural energy Optimization Plants Power generation Renewable energy Renewable energy sources Resource allocation Revenue Scarcity Social change soil solar energy Solar power Studies Traditional farming Water Water availability Water scarcity Water supply Wind power Wood Italy Renewable energy Land use Biomass
ISSN:	0301-4215, 1873-6777
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Abstract	Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. ► The aim of this study is to assess how agriculture could contribute to the production of bio-energy. ► A multi-period (15-year) Weighted Goal Programming model (MpWGP) has been applied. ► We identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production. ► Three concurrent constraints have been considered: water, labour and soil availability.► Water scarcity has an overall negative effect and specifically affects the level of energy production.
AbstractList	Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. All rights reserved, Elsevier Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. [PUBLICATION ABSTRACT] Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. ► The aim of this study is to assess how agriculture could contribute to the production of bio-energy. ► A multi-period (15-year) Weighted Goal Programming model (MpWGP) has been applied. ► We identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production. ► Three concurrent constraints have been considered: water, labour and soil availability.► Water scarcity has an overall negative effect and specifically affects the level of energy production. Energy production from biomasses can be an important resource that, when combined with other green energies such as wind power and solar plants, can contribute to reduce dependency on fossil fuels. The aim of this study is to assess how agriculture could contribute to the production of bio-energy. A multi-period Weighted Goal Programming model (MpWGP) has been applied to identify the optimal land use combinations that simultaneously maximise farmers' income and biomass energy production under three concurrent constraints: water, labour and soil availability. Alternative scenarios are considered that take into account the effect of climate change and social change. The MpWGP model was tested with data from the Rovigo county area (Italy) over a 15-year time period. Our findings show that trade-off exists between the two optimisation targets considered. Although the optimisation of the first target requires traditional agricultural crops, which are characterised by high revenue and a low production of biomass energy, the latter would be achievable with intensive wood production, namely, high-energy production and low income. Our results also show the importance of the constraints imposed, particularly water availability; water scarcity has an overall negative effect and specifically affects the level of energy production. [Copyright Elsevier Ltd.]
Author	Ballarin, A. Vecchiato, D. Troiano, S. Tempesta, T. Marangon, F.
Author_xml	– sequence: 1 givenname: A. surname: Ballarin fullname: Ballarin, A. organization: TeSAF, Department of Land, Environment, Agriculture and Forestry, University of Padova, Italy – sequence: 2 givenname: D. surname: Vecchiato fullname: Vecchiato, D. email: daniel.vecchiato@unipd.it organization: TeSAF, Department of Land, Environment, Agriculture and Forestry, University of Padova, Italy – sequence: 3 givenname: T. surname: Tempesta fullname: Tempesta, T. organization: TeSAF, Department of Land, Environment, Agriculture and Forestry, University of Padova, Italy – sequence: 4 givenname: F. surname: Marangon fullname: Marangon, F. organization: DSE, Department of Economic Sciences, University of Udine, Italy – sequence: 5 givenname: S. surname: Troiano fullname: Troiano, S. organization: DSE, Department of Economic Sciences, University of Udine, Italy
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Cites_doi	10.1057/palgrave.jors.2602588 10.2172/1218369 10.1007/s11053-005-4679-8 10.1016/S0305-0483(00)00026-8 10.1016/S0377-2217(97)00317-2
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SubjectTerms	Agricultural economics Agricultural production Agriculture Agronomy. Soil science and plant productions Applied sciences Availability bioenergy Biofuels Biological and medical sciences Biomass Biomass energy Biomass energy production biomass production Biomass Renewable energy Land use Climate change Climate effects Constraints Crops Dependency Economic data Energy Energy economics Energy planning Energy policy Exact sciences and technology farm income Farmers Fossil fuels Fundamental and applied biological sciences. Psychology General, economic and professional studies Generalities. Biometrics, experimentation. Remote sensing Global warming Goal programming Green energy Income Italy labor Land use Land utilization Low income groups Methodology. Modelling Natural energy Optimization Plants Power generation Renewable energy Renewable energy sources Resource allocation Revenue Scarcity Social change soil solar energy Solar power Studies Traditional farming Water Water availability Water scarcity Water supply Wind power Wood
Title	Biomass energy production in agriculture: A weighted goal programming analysis
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