The document summarizes a presentation about the European Forest and Agricultural Sector Optimization Model (EUFASOM). EUFASOM is a partial equilibrium model that computes market equilibrium for agriculture and forestry sectors across Europe. It integrates environmental impacts and is used to analyze the effects of policies and structural changes. The presentation describes the model components and structure, provides an example analysis of bioenergy potentials and impacts under different policy scenarios, and discusses some challenges in using comprehensive economic models.
ENG 5 Q4 WEEk 1 DAY 1 Restate sentences heard in one’s own words. Use appropr...
EUFASOM agricultural sector optimization model
1. The European Forest and Agricultural Sector Optimization Model (EUFASOM) Chrystalyn Ivie S. Ramos and Uwe A. Schneider, Hamburg University 3 rd Project Meeting, Skopje, Macedonia, 10-11 September 2009 BEE project is funded by the European Commission under the Framework Programme 7 FP7 GRANT AGREEMENT N˚: 213417
9. EUFASOM Model Structure Processing Markets Feed mixing Labor Pasture Other Inputs Cropland Water Livestock production Forestry, Nature, Crop production Export Domestic demand Import Forest Inventory
10. EUFASOM Modeling System EUFASOM Crop & Tree Simulation Models Spatial Analysis Tools Farm level & GIS Data Viable Population Analysis Systematic Wetland Conservation Planning Engineering Equations Other Economic Models Climate Models Aggregated Agricultural Statistics
11. EUFASOM Model Clusters AROPAj Model: Farm type models, CAP reform and GHG management FORMICA Model: Regional forest management, GHG budget at forestry sector level, case studies Bio-Tech Model: Product chains of bioenergy and biomaterials, GHG balance of options EPIC Model: Agriculture, crop production, environmental factors, biogeochemistry supply curves OSKAR: Forest biomass growth, Afforestation, Deforestation, Forest Management EUFASOM Model: Trade and competition between regions, competition between sectors optima biomass supply chemistry technology and costs BEWHERE Model: Optimal location of plants according to supply and demand, competition between biomass production types Geography Case studies Technology Production technology and costs Trade and competition
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15. Part II: Policy Scenario Analysis (Bioenergy Illustration Case)
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18. Scenarios: Economic and Technical Potentials 0 250 500 750 1000 1250 1500 1750 2000 0 100 200 300 400 500 600 Biomass Incentive in Euro/ton Biomass Demand in million dry tons Competitive Economic Potential Technical Potential Current Consumption* * Consumption, 385 M dry tons (fact-finding study by Broek van den et al, 2003)
21. Impact on Food Price, Consumption and Trade Net Export Volume in Billion Euros -1000 -500 0 500 0 2000 4000 6000 8000 10000 12000 14000 16000 -10000 -5000 0 5000 Fisher Index for Food Price and Consumption Biofuel Demand in million MWh Price Consumption Net Export
25. Power Plant Biomass Supply 0 10 20 30 40 50 60 70 80 0 20 40 60 80 100 Energy Crops (million tons) Carbon tax on energy (EUR/ton of carbon) 2010 Capacity 2030 Capacity 2050 Capacity Unrestricted Capacity
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Notes de l'éditeur
spatially explicit information such as road layouts, existing land uses, population densities and growth rates, distributions of endangered species, archeologically significant areas, etc. to inform planning and policy development related to biomass energy at a regional or national level.
Supply functions: implicit meaning there are no direct supply functions for crops for example but we have inputs of resources, labor, technologies which in the end brings about yields as an output for example. Demand functions: changing prices, ex. decreasing prices
Policies: energy taxes, carbon taxes, tariffs and subsidies, standards Technical change: example – 20% increase in crop productivitiy, agricultural mechanization, etc. Environmental change: introduction of environmental policies, etc. Socioeconomic change: Population, Low income population effects, high-income population; inequalities; land tenure; standard of living
Sealed lands include lands used for roads, railroads, lands where buildings were erected, etc.
It is a small static model which marginally represents the bioenergy module in EUFASOM but does not possess all the advantages and characteristics of EUFASOM which is dynamic. It is also a stand alone model – runs outside EUFASOM.
Inputs: Resource constraints: (Land) - fixed total quantity and/or increasing resource supply functions Outputs: production Q = land use, water use, environment (CO2 emissions) consumption Q = undernourishment indicators trade flows = net exports or net imports
1 km2 = 100 ha. The EU27 has a total land area of 433.2 Mha, of which 196.6 Mha is agricultural and 113.5 Mha arable. Forest area is around 150.85 million has. Data from Institute of Science and Society, 2008. (other data as of 2006 from Europe Statistical Pocketbook). According from EURURALIS, for the EU27 about 4% of total land and about 8% of agricultural land will be used to grow first generation bio-energy crops. As of 2003, availability of biomass resources for EU25 according to a fact finding study done by Broek van den et al (biofuels in the dutch market) shows a potential of around 165 mtoe including electricity, heat and biofuels. From this study, it is around 214 mtoe (500 million tons biomass).