Copenhagen 29 June 2004 1 Energy and climate outlook: Renewables in a world and European perspective Peter Russ.

Slides:

Advertisements

Similar presentations

Christian Azar Based on joint work with Björn Sandén Chalmers University, Göteborg Sweden Near-term technology policies for.

Advertisements

Said Chehab ALMEE Ramses Amman Workshop June 2010 Enhancement of Energy Efficiency Policies and Renewable Energy Sources in the Mediterranean region, a.

© World Energy Council 2013 World Energy Scenarios Impact of the Energy Governance Model to the Future of the European Energy Sector Einari Kisel 23 rd.

Lignite Project By Ramic, Haris. GLOBAL OUTLOOK FOR ENERGY World energy consumption is projected to increase at about 1.8%/year between 2000 and 2030(driven.

Goals of Japan’s Energy and Environment Policy. Establishment of Low Carbon Society  on the basis of long-term outlooks for energy and CO2 emissions.

Scenario development for policy analysis: experiences in Europe and the Netherlands G.H. Martinus ECN Policy Studies, The Netherlands.

IPCC Synthesis Report Part IV Costs of mitigation measures Jayant Sathaye.

INTERNATIONAL ENERGY AGENCY World Energy Outlook 2004: Key Trends and Challenges Marco Baroni Energy Analyst Economic Analysis Division INTERNATIONAL HYDROGEN.

Future role of renewable energy in Germany against the background of climate change mitigation and liberalisation Dipl.-Ing. Uwe Remme Institute of Energy.

Potential Impacts of an Advanced Energy Portfolio Standard in Pennsylvania Ryan Pletka, P.E. Black & Veatch April 12, 2004 Supported by: Heinz Endowments.

SGM P.R. Shukla. Second Generation Model Top-Down Economic Models  Project baseline carbon emissions over time for a country or group of countries 

Green investment scheme and climate change mitigation policy in Ukraine Stavchuk Iryna Climate change program coordinator National ecological centre of.

Johnthescone The IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation.

Special Report on Renewable Energy Sources and Climate Change Mitigation IPCC WORKING GROUP 3.

© OECD/IEA 2011 COAL AND CHINA’S CHOICES Jonathan Sinton China Program Manager International Energy Agency Washington, D.C., 12 January 2011.

Sergey Paltsev Massachusetts Institute of Technology Low-Carbon Russia: Myth or Reality? Moscow, Russia January 15, 2015.

INTERNATIONAL ENERGY AGENCY AGENCE INTERNATIONALE DE L’ENERGIE 1 Dr. Robert K. Dixon Head, Energy Technology Policy Division International Energy Agency.

Energy Security and Low Carbon Development in South Asia

1V Int. Scientific and Practical Workshop "Ashes from TPPS", April 24/25, 2014, Moscow, Russia Forecast in Power Production and Impact on CCPs in Europe.

EWG47 12.c. RE Share Doubling Goal - 1/17 The 47 th Meeting of APEC Energy Working Group (EWG) Kunming, China, May c. Memorandum for Renewable.

Center for International Climate and Environmental Research-Oslo: Research Priorities and Interest in China Lin Gan SINCIERE Member Workshop October 19,

RES Integration for Increasing of Energy Supply Security in Latvia: ENVIRONMENTAL AND ECONOMICAL FACTORS NEEDS FORUM 2 “Energy and Supply Security – Present.

© OECD/IEA 2010 Cecilia Tam International Energy Agency Martin Taylor Nuclear Energy Agency The Role of Nuclear Energy in a Sustainable Energy Future Paris,

Renewable Energy Target for Europe 20 % by 2020 EREC European Renewable Energy Council Energy, greenhouse gas emissions and climate change scenarios EEA,

ESPON Project TERRITORIAL TRENDS OF ENERGY SERVICES AND NETWORKS AND TERRITORIAL IMPACT OF EU ENERGY POLICY Álvaro Martins/Luís Centeno CEEETA Research.

Future Energy Insights and Nuclear Power Mark Howells, Professor and head of the division of Energy Systems Analysis (KTH-dESA) Royal Institute of Technology,

Spain: Can we give up any of the primary energy sources? Alejo Vidal-Quadras Roca Vice-President of the European Parliament Member of the Industry, Energy.

1 IEA Energy Scenarios for India for 2030 Lars Strupeit Malé Declaration: Emission inventory preparation / scenarios / atmospheric transport modelling.

1 DEDICATED TO MAKING A DIFFERENCE Vincent Mages Climate Change Initiatives VP Lafarge Greenhouse gas mitigation in the cement.

1 Macroeconomic Impacts of EU Climate Policy in AIECE November 5, 2008 Olavi Rantala - Paavo Suni The Research Institute of the Finnish Economy.

DAC PROJECT Capacity Building in Balcan Countries for the Abatement of Greenhouse Gases Setting priorities for GHG emissions’ reduction George Mavrotas.

Technologies of Climate Change Mitigation Climate Parliament Forum, May 26, 2011 Prof. Dr. Thomas Bruckner Institute for Infrastructure and Resources Management.

Directorate General for Energy and Transport Euroforenet Conference 20/11/2007 Brussels European Commission Kyriakos MANIATIS Biofuels & Industry DG TREN.

Taking the Lead: State Innovations to Reduce Greenhouse Gases Bill Becker STAPPA/ALAPCO February 28, 2002.

Low carbon scenarios for the UK Energy White Paper Peter G Taylor Presented at “Energy, greenhouse gas emissions and climate change scenarios” June.

Swedish Energy Policy. Relative Energy Supply coal hydro wood oil nuclear new RES.

Paul Scherrer Institut 5232 Villigen PSI WEC Oct. 01 / EM01/JA01 18 th World Energy Congress Round Table 6: Sustainability (Living in One World) Wednesday,

Global Sustainability: The Case for Collaboration Environmental Issues.

Generation Portfolio Options Study Philip O’Donnell Manager, Generation Analysis 14 October 2009.

World Energy Outlook 2006 Scenarios for the World and the European Union Presentation to European Wind Energy Conference Milan, Italy, 7-10 May 2007.

1 Economics of The European 2020 Climate Goals Torben K. Mideksa Center for International Climate and Environmental Research - Oslo April 18, 2009 The.

European Commission DG TREN / C: Conventional Energy Greenhouse gas mitigation and energy policy, a European perspective Presentation by Cristóbal.

Supply chains for the UK to 2050 A. Bauen (*), R. Slade, S. Jablonski and C. Panoutsou The context The aim of this work is to explore the potential for.

Johnthescone The IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation UN Climate Change Conference June 2011 Bonn, Germany, 7.

Efficiency in industry through electro-technologies Paul Baudry, EDF / R&D The future of Energy in Enlarged Europe, Warsaw 7-8th october 2004.

Directorate General for Energy and Transport Advanced fossil fuel boiler technologies for reaching the goals of the Kyoto protocol OPET-Seminar Celje,

The Global Climate Change Forum An Economic and Business Perspective Global Energy Services.

Combining options for commitments AIXG, OECD, 22 March Combining options for commitments: results from modelling exercises Patrick Criqui, LEPII-EPE,

Sustainable Energy Systems The EU “WETO” World Energy, Technology and climate policy Outlook 2030 Domenico Rossetti di Valdalbero European Commission,

Carbon Emissions and the Need for Improved Energy Efficiency.

The links to global problems Presentation at the 25 th anniversary special event of the Convention on Long-range Transboundary Air Pollution “Past successes.

Johnthescone The IPCC Special Report on Renewable Energy Sources and Climate Change Mitigation.

World Energy Outlook 2015 Deputy Director General Petteri Kuuva WEC Finland, 23 Nov

NS4054 Fall Term 2015 North America Energy Trilemma.

AMBITIOUS TARGETS FOR ENERGY RD & D MEETING PLANETARY EMERGENCIES.

New Energy Externalities Development for Sustainability Final Conference "External costs of energy technologies" Markus Blesl, IER, Germany RS “Modelling.

 Cap and Trade Application: Global Warming 6. 2.

CES KULeuven The Pan EU NEEDS TIMES model: main results of scenario analysis The Pan EU NEEDS TIMES model: main results of scenario analysis SIXTH FRAMEWORK.

The European Climate and Energy Policy Assessment and future prospects Co-finanziato Dal Programma LLP dell’Unione Europea L’autore è il solo responsabile.

1 Economics of The European 2020 Climate Goals Torben K. Mideksa Center for International Climate and Environmental Research - Oslo [CICERO] April 18,

Climate Policy and Green Tax Reform in Denmark Some conclusions from the 2009 report to the Danish Council of Environmental Economics Presentation to the.

© OECD/IEA Do we have the technology to secure energy supply and CO 2 neutrality? Insights from Energy Technology Perspectives 2010 Copenhagen,

1 Perspectives of CCS power plants in Europe under different climate policy regimes Tom Kober, Markus Blesl Institute of Energy Economics and the Rational.

Clean Air for Europe ROLE OF ENERGY BASELINE IN CAFE 28 February 2002 Matti Vainio DG Environment, Air Quality and Noise Unit.

Renewable energy technologies and industrial success; do economic incentives matter? Johan Albrecht Ghent University Faculty of Economics and Business.

World Energy and Environmental Outlook to 2030

International Renewable Energy Agency

Prospects for renewable energy developments and role of natural gas

Spencer Dale Group chief economist.

SUSTAINABLE ENERGY SUPPLY

Presentation transcript:

Copenhagen 29 June Energy and climate outlook: Renewables in a world and European perspective Peter Russ

Copenhagen 29 June Energy and Climate Change Aim: To support policy-making to mitigate conflicts between energy consumption and environmental and resource management issues –Security of supply, preservation of competitiveness –Kyoto Protocol: Legally binding commitments for the EU as a whole –Focus on EU but “problems” of global scale – =>POLES model

Copenhagen 29 June WETO: Energy outlook Climate policy impact Gas/oil case Technology cases World energy, technology and climate policy outlook 2030

Copenhagen 29 June Climate Change: Can Technology solve the problem? How much can emissions be reduced applying modern energy technology? Is nuclear power the solution? Or renewables ?  Technology Cases Disregarding any carbon abatement target: What is the role of autonomous technology development in carbon emission reduction? n World baseline energy projection + n plausible assumptions on energy technology development including hypothesis on capital costs, fuel costs, availability factors, fuel conversion efficiencies, etc.

Copenhagen 29 June Renewables Case

Copenhagen 29 June Impacts of the Technology Stories on electricity generation and CO2 emissions (Scenario as compared to Reference in % by 2030) World baseline projection by 2030 are MtC/year, to be compared with 6052 MtC/year in The most favorable scenario would yield MtC/year instead!

Copenhagen 29 June Summary Conclusions of the Technology Scenarios The Technology Stories offer NO PANACEAS for the CO2 problem mainly because: n They have been defined in terms of clusters affecting only a part of emerging energy markets. n Breaktroughs in demand technologies would produce more straightforward results but clusters are harder to identify. n Scenarios involving fossil fuel technologies while implying efficiency improvements also imply higher competitiveness via-a-vis less polluting or non-fossil technologies. n The magnitude of the world wide CO2 is such that is hard to see how technology could make a major impact if unassisted by more general policy measures

Copenhagen 29 June Scenario assumptions and implementation n Renewable premium on output n Different schemes and targets: n EU15, EU25, OECD n Electricity generation, primary energy n Combination with CO2 reduction target

Copenhagen 29 June Renewable Target for Primary Energy 4.7 cents/kWh

Copenhagen 29 June Renewable Technologies

Copenhagen 29 June Renewable Technologies 1.3 cents/kWh

Copenhagen 29 June Summary n Renewable penetration rates as discussed can be achieved at a cost of appr. 5 cents/kWh (OECD) n At this level of a subsidy, the Kyoto protocol targets for CO2 emission would be met. The cost is however much higher than in a scenario including all options. n Potential as subject to uncertainty, eg. Biomass competes with agriculture n Wind energy (onshore) at it’s limit

Copenhagen 29 June Technology Stories n The NUCLEAR Case assumes a breakthough in nuclear technology in terms of cost and safety n The COAL case involves major improvements in solid fuel burning technologies and especially affects the technico-economic characteristics of Supercritical Coal plants, Integrated Gasification Combined Cycles n The GAS case assumes availability of natural gas and introduces major technico-economic improvements for gas-turbine combined cycles and combined heat and power plants. Some improvements assumed for all gas turbine-related technologies. Additionally involves a breakthrough in fuel cell technologies n The RENEWABLE case implies a major effort and breakthroughs in Renewable Technologies, notably wind power, biomass gasification, solar thermal power plants, small hydro and photovoltaics

Copenhagen 29 June Energy and industrial GHG emissions scenarios v Global energy/carbon emission scenarios v World-wide assessment of carbon abatement flexible mechanisms, and carbon-equivalence among greenhouse gases v Techno-economic assessment of mitigation policies v Long term prospects for climate-protection policies. Integrated assessment applied to post-Kyoto negotiation processes. v Intra-European analysis of the carbon emission permit markets: flows and prices within the Kyoto timeframe. v Regional forecasts and analyses (technology options, emission abatement potential etc): Mediterranean, Latin America, Energy-exporter countries. v Participation in multilateral energy forecasts comparative exercises (IEA, US DoE, Canada, IIASA, Japan).

Copenhagen 29 June Energy Technology Modelling Scenarios v Energy technology data bases (costs, emissions, efficiencies, market share). v Monitoring and harmonization of external costs estimates. v World energy technology outlook Identify main trends in energy markets and the changes in energy technology portfolio. v Dynamics of energy technology development (RTD effect, learning curves, etc) in order to setup energy RTD priorities. v Prospective analyses of specific energy technology clusters (hydrogen, renewables, alternative fuels, etc) v Maintenance of a legal and administrative database concerning renewable energy v Economic prospectives of energy provision (Security of supply and energy technology, impact of supply shocks)