CEEH Workshop Roskilde, February 6, 2008 The Pan European NEEDS-TIMES model SIXTH FRAMEWORK PROGRAMME [6.1] [ Sustainable Energy Systems] Markus Blesl.

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Presentation transcript:

CEEH Workshop Roskilde, February 6, 2008 The Pan European NEEDS-TIMES model SIXTH FRAMEWORK PROGRAMME [6.1] [ Sustainable Energy Systems] Markus Blesl First CEEH Energy Externality Workshop Roskilde, Denmark, February 6, 2008

CEEH Workshop Roskilde, February 6, 2008 Objective of NEEDS The ultimate objective of the NEEDS Integrated Project is to evaluate the full costs and benefits (i.e. direct + external) of energy policies and of future energy systems, both at the level of individual countries and for the enlarged EU as a whole. From the scientific and technological viewpoint, this entails major advancements in the current state of knowledge in the following main areas of: Life Cycle Assessment (LCA) of energy technologies Monetary valuation of externalities associated to energy production, transport, conversion and use Integration of LCA and externalities information into policy formulation and scenario building Multi-criteria decision analysis (MCDA), which allows examining the robustness of the proposed technological solutions in view of stakeholder preferences.

CEEH Workshop Roskilde, February 6, 2008 Structure of NEEDS SOCIO-ECONOMIC & ENVIRONMENTAL SCENARIOS + INITIAL TECHNICAL DATA (RS2a + input from Other Streams) TECHNOLOGY DATABASE (ALL STREAMS) LIFE CYCLE DATA (RS1a) COHERENT ENERGY-TECHNOLOGY & TRADE PATHWAYS (RS2a) OTHER INDICATORS, SOCIAL ACCEPTANCE, MCDA (RS2b) EXTERNALITIES (RS1b, RS1c) Source: Richard Loulou 3rd Integration Meeting

CEEH Workshop Roskilde, February 6, 2008 Objectives of the Modeling part in NEEDS To generate via The Integrated MARKAL- EFOM System (TIMES) partial equilibrium technology rich economic models of each Member State and of the EU as a whole (Pan-European model), including the most important emissions, materials, and damage functions used by LCA and ExternE, in their long term development. To compare scenarios that simulate various policy approaches (setting thresholds for CO2 emission, renewables penetration, etc.) using the key base data received form the other streams to calculate equilibrium quantities and prices.

CEEH Workshop Roskilde, February 6, 2008 ETSAP IEA (International Energy Agency) Implementing Agreement Implementing Agreements Energy Technology Systems Analysis Programme (ETSAP) Technology oriented analysis of energy system models with focus on greenhouse gas abatement strategies: - Analysis of national and multinational strategies - Technology data review - Model development (MARKAL, TIMES) Operating Agent Outreach

CEEH Workshop Roskilde, February 6, 2008 Features Regions Elastic demands Vintaging Inter-temporal Load curve Endogeneous technological learning Discrete capacity expansion Future Features NLP (experience curves, macroeconomic linkage) Stochastic Programming MCP (Multi-agent model) TOOLS ANSWER, ABARE VEDA, GERAD HALOA, GERAD Applications (IER) TIMES-BY TIMES-GES TIMES-D TIMES-EE TIMES-World Methodology Bottom-up Model Perfect competition Perfect foresight Optimisation (LP) Min/Max Objective function s.t. Equations, Constraints Decision Variables Solution Input parameters Development The Integrated MARKAL EFOM System By ETSAP Implementation in GAMS Model generator TIMES

CEEH Workshop Roskilde, February 6, 2008 Basic structure of energy system models Cost balance Emissions balance Net production- value Process energy space heating Area Person Light Communicatio n Force Personal- kilometres Tonne- kilometres Demand Coal refining Refinery Power plant and Grid CHP and District Heat Gas pipelines Industry Commercial Domestic Transport End energy Primary Energy Inland production Import Demand values Energy carrier prices, Resources availability price cost Energy flow Emission capacities

CEEH Workshop Roskilde, February 6, region model (EU 25 + Ro, No, CH, IS) Energy system model SUPPLY: reserves, resources, exploration and conversion Country specific renewable potential and availability (onshore wind, offshore wind, geothermal, biomass, biogas, hydro) Electricity: public electricity plants, CHP plants and heating plants Residential and Commercial: All end use technologies (space heating, water heating, space cooling and others) Industry: Energy intensive industry (Iron and steel, aluminium copper ammonia and chlorine, cement, glass, lime, pulp and paper), other industries, autoproducer and boilers Transport: Different transport modes (cars, buses, motorcycles, trucks, passenger trains, freight trains), aviation and navigation Country specific differences for characterisation of new conversion and end-use technologies Time horizon GHG: CO 2, CH 4, N 2 O, SF 6 /Others pollutants: SO 2, NO x, CO, NMVOC, PM 2.5, PM 10 Characterization of the Pan-European TIMES model

CEEH Workshop Roskilde, February 6, 2008 The modelling team of the country models

CEEH Workshop Roskilde, February 6, 2008 Electricity structure in the PAN- European Model... ~ grid cost medium~ cost for distribution voltage grid plusaccording to grid ~ grid cost highH-M transformer~ grid cost lowtariffs of the certain voltage gridvoltage grid plusdemand group M-L transformer ~ modelling of pump storage process here only scematic INDELC00 COMELC00 TRAELC00 Generation Decentralized Generation LOW VOLTAGE Export RSDELC INDELC COMELC RSDELC00 TRAELC Import ELCHIGG EVTRANS_H-M Generation ELCHIG EVTRANS_H-H Pump Storage ELCMED EVTRANS_M-L ELCLOW

CEEH Workshop Roskilde, February 6, 2008 The Pan-European TIMES model - Linking the countries together by electricity exchange

CEEH Workshop Roskilde, February 6, 2008 Scenario analysis - The Key Policy Cases in the NEEDS Project 1.Specification of the Baseline case (BAU) 2.Post-Kyoto climate policy to stabilize CO2e concentrations at 440 ppmv (CO2) 3.Enhancement of endogenous energy resources, (constraining imports of fossil fuels to foster the use of renewables, efficiency standards and new nuclear) 4.Improve environmental quality by endogenizing externalities related to local air pollution ( i.e., w/o global externalities) + SENTECH Today

CEEH Workshop Roskilde, February 6, 2008 Total CO 2 emission in the EU 27

CEEH Workshop Roskilde, February 6, 2008 Total final energy consumption EU 27

CEEH Workshop Roskilde, February 6, 2008 Total final energy consumption industry EU 27

CEEH Workshop Roskilde, February 6, 2008 Total final energy consumption transport EU27

CEEH Workshop Roskilde, February 6, 2008 Total final energy consumption residential EU27

CEEH Workshop Roskilde, February 6, 2008 Net electricity generation in TWh

CEEH Workshop Roskilde, February 6, 2008 Net electricity generation in TWh

CEEH Workshop Roskilde, February 6, 2008 Net electricity generation capacity in [GW]

CEEH Workshop Roskilde, February 6, 2008 Net electricity generation capacity in [GW]

CEEH Workshop Roskilde, February 6, 2008 Net electricity generation capacity by technologies in [GW]

CEEH Workshop Roskilde, February 6, 2008 Total primary energy consumption EU

CEEH Workshop Roskilde, February 6, 2008 Integration of LCA and External costs in the Pan-European TIMES model Cost balance Emissions balance Net production- value Process energy space heating Area Person Light Communicati on Force Personal- kilometres Tonne- kilometres Demand Coal refining Refinery Power plant and Grid CHP and District Heat Gas pipelines Industry Commercial Domestic Transport End energy Primary Energy Inland production Import Demand values Energy carrier prices, Resources availability price cost Energy flow Emission capacities Capacities Emission Cost per pollutant

CEEH Workshop Roskilde, February 6, 2008 Thank you for your attention !