Carrie Pottinger

R&D Analysis and Coordination

©OECD/IEA 2009

INNER Era-NetPolicy Conference

Innovative Energy Research28 May 2009

IEA ENERGY TECHNOLOGY R&D

©OECD/IEA 2009

Energy Technology R&D

Policy

New Pathways

GLOBAL ENERGY R&D NETWORK

© OECD/IEA, 2008©OECD/IEA 2009

5,000 scientists, experts, researchers, consultants

500 universities, labs, government offices, companies,

consultants

Link public and private

Link IEA members and non-members

Structure

End-Use Fusion Renewable Working

Working Power Energy Party

Party Co-ordinating Working Fossil

Committee Party Fuels

INTERNATIONAL TECHNOLOGY COLLABORATION

(IMPLEMENTING AGREEMENTS)

IEA GOVERNING BOARD

COMMITTEE ON ENERGY RESEARCH

AND TECHNOLOGY (CERT) Ad Hoc Group

R&D Priority

Setting

Ad Hoc Group

Science &

Energy

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Respective Roles

Manage and set strategies for ETRD network

ETRD and policy work of the IEA Secretariat

Identify technology priorities

Review IA accomplishments

Provide advise basic research, R&D priorities, oil and gas

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Research Portfolios

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1. Includes modeling and technology assessment.

2. Includes research, advice and support of demonstration of the particular technology.

3. Includes market introduction and technology transfer.

Coordinated researchSpecific energy technology RD&D studies

Joint projectsDesign, construction and operation of pilot projects, facilities,

experiments

Information exchangeScientific and technological developments, national programs,

energy policies

Personnel exchangesScientist, experts, technicians

OtherE.g. Modeling, databases, capacity building

©OECD/IEA 2009

IA Activities

FOSSIL FUELS Clean Coal Sciences

Enhanced Oil Recovery Fluidized Bed Conversion

IEA Clean Coal Centre IEA Greenhouse Gas RD

Multiphase Flow Sciences

RENEWABLE ENERGY TECHNOLOGIES

Bioenergy Geothermal Hydrogen

Hydropower Ocean Energy Systems

Photovoltaic Power Systems Renewable Technology Deployment

Solar Heating and Cooling SolarPACES

Wind Energy Systems

FUSION POWER

ASDEX-Upgrade

Environmental, Safety, Economy

Fusion Materials

Large Tokamaks

Nuclear Technology Fusion Reactors

Plasma Wall Interaction in TEXTOR

Reversed Field Pinches

Spherical Tori

Stellarator Concept

Supply

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IA Portfolios

TRANSPORTAdvanced Fuel Cells

Advanced Materials for Transportation Advanced Motor Fuels

Hybrid and Electric Vehicles

BUILDINGSBuildings and Community Systems

District Heating and Cooling Energy Efficient Electrical Equipment

Energy Storage Heat Pumping Technologies

ELECTRICITYDemand-Side Management

Electricity NetworksHigh-Temperature Superconductivity

INDUSTRYEmissions Reduction in Combustion Industrial Energy and Technologies

Demand

INFORMATION AND MODELLINGClimate Technology Initiative

Energy Technology Data Exchange Energy Technology Systems Analysis

Cross-Cutting

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©OECD/IEA 2009

Expert Group R&D Priority Setting

Global R&D Portfolio: Strategies to AccelerateTechnology Development

28-29 April 2009

R&D Portfolios and Strategies

IEA member countries (14)

Non-member Countries (BRICS, Indonesia, Mexico)

Approaches to Map International R&D Portfolios and Capacity Europe

Nordic Countries

OECD

IEA R&D Statistics

Roundtable: Issues Raised and Path Forward

©OECD/IEA 2009

Ambitious U.S. Agenda

Establish Advanced Research Projects Agency for Energy

Appropriated $400M in 2009

Focus on “transformational” and “translational” R&D

High-risk, high-payoff energy technology R&D

Initial Solicitation Expected in April 2009

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Expert Group Science and Energy

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Improving Linkages to Accelerate

Energy Technology Breakthroughs4-5 May 2009

Opening Remarks

Need for energy technology revolution

Breakthroughs critical to achieving emission reduction 2030-50

Important to understand each technology option

Don‟t pick winners - all are interdisciplinary and needed

Success requires focus on goal/outcomes

Overcome increased risks and costs of deployment

Increase basic R&D to scale-up and implement energy technologies

Partnerships essential, notably international government-industry

Raise public awareness of science and energy research to gain support

EGSE asked to help define necessary breakthroughs

©OECD/IEA 2009

Panel: Existing Science for Energy Efforts

Systematically link basic science with applied energy technology R&D

More basic science and research to achieve transformational discoveries

International cooperation is key to achieving breakthroughs

Need to develop roadmaps

Brainstorming

1. Breakthroughs in Science for Energy: What is Needed?

2. Mapping Science for Energy Efforts

3. Expanding International Collaboration and Linkages between Science

and Energy

Results of the brainstorming session will be used to shape future EGSE

priorities and activities.

R&D Priority SettingEnhancing International Technology CollaborationWashington D.C., 12-13 November 2008

Energy Technology Roadmap Workshop

Paris: 15-16 May 2008

Using Long-Term Scenarios for R&D Priority SettingParis, 15-16 February 2007

Science and Energy Material Development for Thermal Energy Storage: Phase

Change Materials and Chemical ReactionsBad Tölz, Germany: 4-6 June 2008

Information Exchange and Collaboration on Basic Science

Research for Energy ApplicationsIEA, Paris: 6-7 May 2008

Accelerated Materials Discovery for Energy Storage and

Conversion DevicesOxford: 2-4 April 2007

Recent EG Activities

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©OECD/IEA 2009

Energy Technology R&D

Policy

New Pathways

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High-level representationG8, MEM, COP, WEF

Emergency exercise

Global outreach BRICS, key world regions

Workshops that feed into analysis Statistics, research, analysis, workshops,

outreach, high-level events,

Policy Advice for Governments

©OECD/IEA 2009

IEA Analysis

Pub.

Indicators / Models

Statistics / Technology

Pub.

Nat./ Internat.

Policies / Measures

World Energy Outlook

Energy Technology Perspectives

(Markal, MObility MOdel)

Oil Market Report

In-depth national reviews

Commodities and markets

Environment/CO2

Numeric-based Policy-based

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Sampling Recent Analysis

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Communicating Results

First priority: governments

Committees report to national counterparts

General public

Analysts, universities, companies, consultants

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Energy Technology R&D

Policy

New PathwaysIf you always do what you always did, you’ll always get what you always got.

©OECD/IEA 2009

Recent trends require changes in approach

Climate change, oil supplies, energy security, G8,global economic crisis

The clock is ticking and we’re running out of timeWEO and ETP point to tremendous efforts needed

“Energy technology revolution”

Traditional avenues of communication no longer sufficient

Workshops, publications, press releases, website allimportant but no longer sufficient

Global Energy Changes

©OECD/IEA 2009

Engage key world economies

Brazil, Russia, India, China, and South Africa+Asia-Pacific, Latin America, Near-Middle East

Increase involvement important stakeholdersIndustry, finance, cities

Facilitate policy-making

Energy efficiency recommendations

Support for „vertical‟ organisations IRENA, IPEEC, GCCS

Targeted national events using IEA as platform

Energy technology roadmaps

Reaching Out and Into

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Enhancing National R&D

Targeted activities Increase dialogue technology R&D actors

Increase policy coherence

Raise profile of ETRD network

©OECD/IEA 2009

1. Current status of technology and RDD&D

activities

2. Future technology targets to be achieved and

by when

3. Critical RDD&D activities and milestones

needed to meet these targets

4. Barriers to overcome (legal, regulatory,

acceptance etc.)

5. Policies required to support development and

deployment

6. Identification of roles and responsibilities,

including international co-operation

7. Evaluation criteria for assessing progress

ETP Roadmaps

©OECD/IEA 2009

Scoping paper reviewing existing work and identifying

issues

1 or 2 “pressure cooker” workshops with 15-20 experts

from industry, government, academia...

Develop draft roadmap

Circulate draft of roadmap to wider stakeholder group

Carry out missing analysis and refine roadmap

Re-circulate second draft for further comment

Publish (ETP2010 and separately)

Approach

©OECD/IEA 2009

Supply CCS power generation

Coal – IGCC

Coal – USCSC

Nuclear III + IV

Solar – PV

Solar – CSP

Wind

Biomass – IGCC & co-

combustion

2nd generation biofuels

Demand Energy efficiency in buildings

Energy efficient motor systems

Efficient ICEs

Heat pumps

Plug-ins and electric vehicles

Fuel cell vehicles

Industrial CCS

Solar heating

Industry efficiency

(starting with cement)

Work has already begun on technologies shown in green.

Current Status

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Energy RD&D and innovation

Technology diffusion & transfer

Financing

Economic growth and labour market impacts

Environmental co-benefits / conflicts

Consumer impacts, potentials behavioral change

Materials needs for energy evolution

ETP 2010

Map global RD&D (incl. non-IEA)

Improve data on funding

How to measure outcomes?

What level of spend is needed?

Who should be doing what?

Role of international co-operation?

Improving the innovation system –

overcoming the valleys of death

Goals 2010 and Beyond

©OECD/IEA 2009

Extensive energy technology research

Need to accelerate to achieve energy

technology revolution

Policy advice is key

Need to explore new pathways

Facilitating policymakers

Innovative approaches

Summary

©OECD/IEA 2009