1 TETRIS WP6 – Quantitative Analysis of International Emissions Trading and Linkages between Workpackages Christoph Böhringer, Ulf Moslener and Niels Anger Presentation for Project Meeting, Amsterdam, June 21, 2006
2 WP6: Structure of the Presentation PART I:Modelling concept of WP6 PART II: Linkages between workpackages
3 PART I:Modelling concept of WP6
4 ZEW Workpackage leader: Workpackage participants: Ecoplan CCAP ECN NTE WP6: Objectives Extend existing CGE model of international trade and energy use with a concrete representation of the EU ETS Integrate project-based JI and CDM within top- down framework accounting for -Transaction costs -CDM-specific investment risks -Technology transfer
5 WP6: Workplan 1.EU ETS analysis National allocation plans (NAPs): EU-25 (country level) Complementary EU policies (taxes) for non-ETS sectors Update of data base: GTAP-6, IEA/DOE energy outlooks Simulation of economic and emission impacts (based on CGE analysis) 2.Extensions Explicit bottom-up CDM/JI supply curves (cost-potential) Bottom-up (technology-specific) transaction costs CDM Investment risk indicator Technology transfer completed in progress
6 Complementary MAC incorporation Partial equilibrium: SIMAC General equilibrium: PACE Direct + indirect (macro) impacts Strengths: Comprehensiveness, (market interactions, income) Explicit MACs based on BU or TD approach Discrete step function or continously differentiable functional form (fit), e.g.: MAC Direct impacts (carbon market only) Regional compliance costs Strengths: transparency, communication abatement Explicit CDM supply curves based on BU Macro impacts also for CDM host countries Macro impacts except for CDM host countries Implicit CDM supply curves
PACE: CDM Technology Transfer Variant 1: Variant 2 (optional): CDM Emissions trading Choice of trading regions and sectors (r, i): Alternative sectoral coverage for CDM host countries (restricted vs. unlimited) Analogous modelling of CDM and emissions trading. Model does not explicitly capture: - CDM induced technology changes - CDM-specific investment flows between host and donor CER transfer and technology transfer AAU transfer
8 Assessment of Technology Transfer A) Bottom-up approach 2-/3-step procedure (PE&GE): 1.Determine equilibrium carbon prices in model analysis (WP6) 2.Deduce transferred technologies from bottom-up CDM supply curves and database (WP3) 3.Determine investment flows from donor to host country (WP3+WP6) Technology-based approach B) Top-down approach – optional (GE only): Multi-regional CGE model Non-project based CDM for regions and sectors to be specified Modelling of efficiency improvements in the electricity sector Macroeconomic aspects of technology transfer
9 Transaction costs and investment risk Transaction costs: Project based transaction costs (WP3) -Upward shift of CDM supply curve -Modelling: Premium on CER price Investment risk specific to CDM: Composite investment risk indicator CPI (WP1) -Risk premium on CER price -Upward shift of CDM supply curve (risk lowers expected return of CDM projects)
10 PART II: Linkages to other workpackages
11 Model Inputs CDM supply: Project-based abatement cost data (CDM) (WP3) Project-based technology data (WP3,WP2) Project-based transaction costs (WP3) CDM investment risk: Country-specific risk indicator (WP1) Emissions data Eastern Europe: Emission projections (WP5)
12 WP6 Linkage Phase Participants: ZEW, Ecoplan, ECN, Natsource, CCAP Mapping 1: Countries (regions)CDM risk indicator Mapping 2: CDM projectsAbatement potential & price Country Sector Technology Transaction costs Investment volume (?)
13 Linkages to other WP WP 1: Investment risk Composite indicator (CPI) Transformation to risk premium scale WP 5: JI and ET in Eastern Europe Emissions data WP 3: Permit supply - MAC curves by region and sector w/wo transaction costs - Technology transfer: Step 2 and 3 WP 2: Technology transfer Case studies: Real world experience
14 Good luck Oranje! Presentation for Project Meeting, Amsterdam, June 21, 2006
15 Annex
16 Partial Equilibrium: The Model SIMAC : SImulation Model based on Marginal Abatement Costs Böhringer et al. (2005) Numerical multi-country partial equilibrium model of the (world) carbon market in 2010 and 2020 Objective: Minimization of compliance (abatement) costs by emissions trading Model may covers transaction costs and investment risk for CDM projects Based on (calibrated) marginal abatement cost functions for energy-intensive and non-energy-intensive sectors EU-ETS MACs can be based on bottom-up (e.g. POLES energy system model) or top-down model (e.g. PACE – CGE model)
17 General Equilibrium: The Model PACE –Multi-sector, multi-region model of the EU (updated data base: GTAP 6) –Incorporation of market interactions and income closures –Micro-consistent calibration based on empirical data for technologies and consumer preferences PACE (Policy Assessment based on Computable Equilibrium):
18 Regions and Sectors - PACE
19 Channels of international technology transfer 1.TT through foreign direct investment – Channels: imitation effects, labor turnover and vertical linkages of firms (Saggi 2000) 2.TT as international knowledge spillovers by international capital flows induced technological change (Kemfert 2002) 3. TT as knowledge transfer through trade in goods (Grossman and Helpman 1991) “Embodiment hypothesis”: technology is embodied in commodities knowledge is transferred through trade a)Knowledge spillovers embodied in final goods (Das 2000) b)Knowledge spillovers embodied in intermediate inputs (Das 2002)