Title: Graeme Sweeney EVP Renewables, Hydrogen and CO2 Shell
1Graeme Sweeney EVP Renewables, Hydrogen and
CO2Shell
- Role of alternatives in the future energy mix
Shells perspective
Merrill Lynch Renewable Energy Conference London,
4th April 2006
2Agenda
- New energy drivers
- Shell response
- Sustainable mobility and fuel choices
- Carbon management
- Wind, Solar Hydrogen
- Shell sustainable mobility and renewables strategy
3Global Energy Challenge
Meeting growing demand for energydriven by
fossil fuelswhile reducing environmental and
social impacts
- Population growth improved access to energy
sources result in a growing demand - Climate Change Air Pollution concerns provide a
shift towards a low-carbon energy system - Energy Diversity Energy Security
4Options for change enabling technologies
Emission reduction
Nuclear power
Renewables
Bio-products
A further shift to natural gas
Carbon capture storage
Clean coal
Clean fuels
Energy conservation and efficiency
Mass transportation
Road transport
Buildings
Low energy appliances
Doing things differently
5Agenda
- New energy drivers
- Shell response
- Sustainable mobility and fuel choices
- Carbon management
- Wind, Solar Hydrogen
- Shell sustainable mobility and renewables strategy
6Shell response Green Fossil Fuels
- Fossil fuels - a central part of the energy mix
for many decades ahead - The challenge - to develop technology that can
fuel growth without environmental degradation and
to deliver technology on an unprecedented scale
and pace - No need for a trade-off between economic
development and action on climate change - What to do NOW?
- Make the most of fossil resources with integrated
CO2 solutions - Develop alternative forms of energy
- Improve energy efficiency
7Future Fuels - close technology partnership with
leading automotive companies
Hamburg, Germany
Chester, UK
Shell has fuels RD activities in Hamburg,
Chester, Amsterdam, Atsugi, Houston, Kuala
Lumpur
Ferrari F1 Partnership
8Biofuels - technology partnership with
Iogenworking to commercialize Cellulose Ethanol
Demonstration scale prototype Cellulose Ethanol
plant
- IOGEN History
- Focus on natural fibre
- Manufacture sell industrial enzymes
- Cellulose Ethanol
- Twenty years experience
- Prototype facility
- Enzyme production
- Cellulose ethanol fuel project on line 2004
- Converting wheat straw to sugar and ethanol
- Next step Production Plant targeted on line 2009
- VW/Iogen/Shell just announced joint study for
German plant
9Biofuels - partnership with Choren working to
make Biomass to Liquid fuel a commercial reality
VW powered by Carbo-V BTL diesel
The Carbo-V BTL Process
Three phase gasification
Gas Treatment
Fischer-Tropsch-Synthesis Hydrocracking
10Synthetic Fuels XTL GTL, BTL, CTL
- GTL operational experience from Bintulu
- GTL product marketing experience
- Coal gasification
- BTL with Choren
- Dedicated GTL engine development Toyota
Daimler Chrysler - Government and OEM relationships
11Hydrogen - from Research to Reality - projects
that demonstrate
- Global business of Shell Group, set up in 1999
- Headquarters in The Hague with regional bases in
Houston and Tokyo - Ventures Projects in Europe, N. America, Japan
China
Demonstrations
N. America, Iceland, Europe, Japan, China
Joint ventures
Investment funds
12Shell CO2 Management using a business
opportunity to become part of the solution
renewables
trading
sequestration
ecbm
alternatives
efficiency
13Shell CO2 project Norway
14An integrated value chain for electricity and CO2
- Enhanced oil recovery from
- Draugen
- Heidrun
- Possibly other fields
860 MW gas-fired power station Meet the
electricity requirements offshore Secure energy
supplies in mid-Norway
CO2 capture for offshore injection Annual volumes
up to 2.5 million tonnes of CO2
15WindEnergy Developer, Owner Operator
White Deer, Texas 80MW
Harburg, Germany 4MW
Blyth Offshore, UK 4MW
Cabazon Pass, California 41MW
Whitewater Hill, California 62 MW
Rock River, Wyoming 50MW
Top of Iowa, 80MW
La Muela, Spain 99MW
Colorado Green, 162MW
Brazos, Texas 160MW
- Total installed capacity 740 MW (Shell share
350MW)
16Solar New Generation CIS
- Why thin-film?
- Lower consumption of materials
- ½ the number of process steps
- Simplified materials handling
- Significantly streamlined assembly
- Why CIS?
- Highest efficiency of all thin-films Shell
module has world record efficiency of 13.5 - Superior energy yield
- Better reliability
- Low direct materials cost
- Uniform appearance / aestatics
17Agenda
- Main energy trends
- New energy drivers Shells response
- Sustainable mobility and fuel choices
- Carbon management
- Wind, Solar Hydrogen
- Shell sustainable mobility and renewables strategy
18Shell Sustainable Mobility and Renewables Strategy
- Expanding energy options NOW for the future
- Making new energy solutions competitive, by
focusing on technologies which demonstrate the
best combination of reliability, cost
effectiveness and sustainability - We have a long-term strategy to establish a
leading position in the new energy sector, built
on distinct experience / capabilities - We have one of the broadest portfolio of
alternative energies Wind, Hydrogen, Biofuels
and advanced Solar and we are determined to
advanced them in the future - We are a global leader in differentiated fuels,
selling 1st generation bio-fuels today - We are an early leader in GTL developing
advanced bio-fuels (including BtL) preparing
for longer-term future fuels, such as Hydrogen - We are developing a leading position in carbon
management and other solutions including Clean
Coal technology - Diversity of energy sources is the future
- Public-Private Partnership is the way forward
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