Abstract
The objectives of the European Union 2014–2020 programming period include increase of energy production from renewable sources through the creation of agro-energy districts. The utilization of residues of annual and perennial crops in agro-energy districts as a combustion product of the exploitation of biomass industry to produce heat and electricity, create a new sustainable environment. This paper focuses on optimizing the agricultural income and the biomass energy potential from crop residues in agricultural districts and especially in a case study in municipality of Almopia in Northern Greece. For this purpose, the optimal plan of agricultural production of the case study area arising from the development of a multi-criteria mathematical programming model that combines more than one conflicting criteria to a utility function that interprets the behavior of farmers and better approaches the rational decision making. The objective of the proposed model is to combine two criteria, namely the maximization of the total gross margin of the case study area and the maximization of electric or thermal power from biomass of crop residues, based on a set of constraints for land, labor, capital, Common Agricultural Policy rules, etc. The optimal production plan of the case study area achieves higher gross margin (3.6 %) and higher level of bioenergy (7.7 %) than the existent production plan. The optimal plan also presents better results than those achieved by the linear programming model when the only goal is to maximize either the gross margin or the production of bioenergy.
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References
Bournaris T, Moulogianni C, Manos B (2014) A multicriteria model for the assessment of rural development plans in Greece. Land Use Policy 38:1–8
Bournaris T, Papathanasiou J, Manos B, Kazakis N, Voudouris K (2015) Support of irrigation water use and eco-friendly decision process in agricultural production planning. Oper Res 15(2):289–306
Di Blasi C, Tanzi V, Lanzetta M (1997) A study on the production of agricultural residues in Italy. Biomass Bioenergy 12:321–331
EC (2005) Biomass action plan European Commission, Brussels
EC (2010) Energy 2020. A strategy for competitive, sustainable and secure energy European Commission, Brussels
EC (2015) Horizon 2020. Work Programme 2016–2017. 9. Food security, sustainable agriculture and forestry, marine and maritime and inland water research and the bioeconomy. European Commision, Brussels
Fantozzi F, Bartocci P, D’Alessandro B, Arampatzis S, Manos B (2014) Public–private partnerships value in bioenergy projects: economic feasibility analysis based on two case studies. Biomass Bioenergy 66:387–397
Frayssignes J (2011) The concept of “agro-energy district”: a pertinent tool for the sustainable development of rural areas, 51st Congress of the European Regional Science Association 30th August–3rd September 2011, Barcelona
Greek National Committee for Combating Desertification (2001) Greek National action plan for combating desertification, Athens
Jölli D, Giljum S (2005) Unused biomass extraction in agriculture, forestry and fishery Sustainable Europe Research Institute (SERI) Vienna
Kienle U, Manos B, Jungbluth T (2015) Alternatives to Tobacco cultivation—Towards an evidence based approach. Land Use Policy 45:199–203
Manos B, Bournaris T, Chatzinikolaou P (2010) Impact assessment of CAP policies on social sustainability in rural areas: an application in Northern Greece. Oper Res Int J 11:77–92
Manos B, Bournaris T, Chatzinikolaou P, Berbel J, Nikolov D (2013) Effects of CAP policy on farm household behaviour and social sustainability. Land Use Policy 31:166–181
Manos B, Partalidou M, Fantozzi F, Arampatzis S, Papadopoulou O (2014) Agro-energy districts contributing to environmental and social sustainability in rural areas: evaluation of a local public–private partnership scheme in Greece. Renew Sustain Energy Rev 29:85–95
Manos B, Chatzinikolaou P, Kiomourtzi F (2015) Sustainable planning of agricultural production. Int J Bus Innov Res 9(1):65–80
Menconi ME, Chiappini M, Grohmann D (2015) Optimisation of thermal performances in livestock housing design solutions using genetic algorithms. Int J Sustain Agric Manag Inform 1(2):142–162
National Statistical Service of Greece (2011) Agricultural structures survey, in: Greece, S.S.O. (Ed.), Athens
Prišenk J, Turk J, Rozman Č, Borec A, Zrakić M, Pažek K (2014) Advantages of combining linear programming and weighted goal programming for agriculture application. Oper Res Int J 14:253–260
Romero C (1991) Handbook of critical issues in goal programming. Pergamon Press, Oxford
Rosillo-Calle F (2003) The role of biomass energy in rural development, 3. Encontro de Energia no Meio Rural, 2000, Campinas (SP, Brazil)
Shamsuzzoha AHM, Grant A, Clarke J (2012) Implementation of renewable energy in Scottish rural area: a social study. Renew Sustain Energy Rev 16:185–191
Sumpsi MJ, Amador F, Romero C (1997) On farmers’ objectives: a multi-criteria approach. Eur J Oper Res 96:64–71
Valiakos A, Siskos Y (2015) Multicriteria decision support for the evaluation of agricultural units in Greece. Oper Res Int Journal 15:379–393
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Tziolas, E., Manos, B. & Bournaris, T. Planning of agro-energy districts for optimum farm income and biomass energy from crops residues. Oper Res Int J 17, 535–546 (2017). https://doi.org/10.1007/s12351-016-0236-y
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DOI: https://doi.org/10.1007/s12351-016-0236-y