Transcript Slide 1

Building a
New Energy Industry in Ohio
Richard T. Stuebi
BP Fellow for Energy and Environmental Advancement
The Cleveland Foundation
June 5, 2009
We Take Energy For Granted
• Supplying the American energy diet by human power
would require 58 slaves working hard 24/7/365 for
each citizen
• At a wage of $5.00/hour, the human energy equivalent
of a barrel of oil would cost $45,000
• Each second, the world consumes 1000 barrels of oil
• Try living without electricity or gasoline for a week!
We Take Energy For Granted
• Supplying the American energy diet by human power
would require 58 slaves working hard 24/7/365 for
each citizen
• At a wage of $5.00/hour, the human energy equivalent
of a barrel of oil would cost $45,000
• Each second, the world consumes 1000 barrels of oil
• Try living without electricity or gasoline for a week!
Two Major Challenges
• Oil: Where will it come from? How
much is left? What will be its price?
What can replace it?
• CO2 emissions: How much/quickly are
emissions changing the climate? How
much/quickly do we need to reduce?
Tight Linkage: Oil
Most oil for transportation
Transportation
Virtually all transport from oil
Uses of Petroleum
Electric
power
Residential
Energy for Transportation
Other
Natural
Gas
Commercial
Jet Fuel
Industrial
Diesel
Gasoline
Transport
Source: EIA
Most Remaining Oil in Middle East
100% = 1292.6 billion barrels
•Saudi Arabia
•Iran
•Iraq
•Kuwait
56%
•UAE
•Qatar
US
Russia
Canada
Libya
Mexico
Nigeria
Source: Oil & Gas Journal, Vol. 102, No. 47 (Dec. 10, 2004), from U.S. EIA
Middle East
China
Venezuela
Elsewhere
Declining Global Oil Discoveries
Source: Durango Bill Energy Analysis
Oil Production Peaking?
Source: www.romaenergia.org
Oil Production: 1/04-3/09
Only
down
<5%
Energy Use Per Capita
million Btu, 2004
350
300
250
200
20x
8.7x
4.9x
150
100
World
average
50
0
India
China
Source: International Energy Annual, Energy Information Administration
U.S.
$/barrel
Oil Prices (Brent)
At $68/barrel (June 1, 2009)
•
•
Half of its peak in mid-2008
•
Almost double its low in early-2009
Still considerably higher than average of last 20 years
What Should Oil Cost?
Current
demand
Source: CERA
Oil Production
The Age of Oil
Ref. Colin J. Campbell
0
500
1000
1500
Anno Domini
2000
.
Source: J.E Naber and F. Goudriaan
2500
The Age of Climate Change
“The vast majority of observers that are:
(1) competent in the field of climatology, and
(2) not financially supported by parties interested in preserving the
status quo
are confident that climate change is:
(a) occurring,
(b) being driven significantly by human activity, and
(c) likely to result in effects on the planet’s ecosystems that within
decades will generate significant economic costs and
environmental degradation.”
- Richard Stuebi
Increasing CO2 Concentrations
Source: Climate Central
Increasing Temperatures
Source: Encyclopedia of Earth
Clear Linkage
Melting Polar Ice Caps
Source: “Impacts of a Warming Arctic: Arctic Climate Impact Assessment”, Cambridge University Press. 2004.
Future Demand Growth
~50%
Future CO2 Emissions Growth
Million metric tons
50000
45000
40000
35000
30000
25000
20000
15000
10000
5000
0
World total
+75%
China
Europe
U.S.
2003 2010 2015 2020 2025 2030
Source: EIA International Energy Outlook
under
“business as
usual”
Increasing Global Temperatures
Remember:
Temperature increases
greater than average at
the poles
Temperature lags CO2
concentrations by
about 50 years
CO2 emissions remain
in the atmosphere for
about 100 years
Source: Wikipedia
-54%
Twin Energy Challenges
• Oil supply uncertainty:
– Virtually 100% of all transportation needs met by petroleum-fuels
– Developing economies (e.g., China, India) rapidly seeking mobility
levels of U.S.
– Increasing evidence of arrival of “peak oil” production, beyond
which….?
– ~2% of remaining resources in U.S., vast majority in countries of
questionable allegiance
• Climate change:
– Strong evidence and consensus of expert community that humans
having impact on climate, with uncertain long-term effects on
planet
– Fossil fuel consumption: main contributor to climate change
– Major reduction in greenhouse gas emissions to avoid possible
“tipping point” into global climate chaos
Opportunity: Advanced Energy
• Multi-trillion dollar “conventional” energy paradigm increasingly
unlikely to meet the twin challenges of increasing oil scarcity
and climate change
• To cope with these challenges, enormous “advanced” energy
industry will need to be built in coming decades
• Increasing investment – private and public sector – targeted to
building the advanced energy industry
• Accelerating the transition to advanced energy locally not only
represents economic opportunity, but also prospect for
improving local performance on energy and environmental
metrics
Investments: 2007-2030
100% = $26.3 trillion
Delivery
To meet global
energy supply
and
environmental
challenges
Exploration
& production
Generation
Refining
Exploration
& production
Transmission &
distribution
Source: International Energy Agency World Energy Outlook 2008
Power
Oil
Gas
Coal
Biofuels
Increasing Energy VC Activity
2008 Cleantech VC Activity
Through Oct. 9, 2008
Source: Cleantech Group, LLC
Federal Action on Energy
• American Recovery and Reinvestment Act
– Tax reductions
– Grant programs
– Loan guarantees
• Climate change
– Waxman-Markey bill to impose cap-and-trade on carbon
emissions
– December negotiations in Copenhagen on international treaty to
supersede Kyoto
• Federal renewable portfolio standard (RPS):
• Tighter fuel efficiency standards for vehicles
• Etc.
Why Ohio for Advanced Energy?
• Materials science leadership
• Significant manufacturing resources
• Geographic location  distribution advantages
• Research institutions and universities
• Water
• Ohio market requirements
Building Advanced Energy Industry
“The
Market”
Outside
forces
shaping
“The
Market”
Technology
developers
Product
suppliers
Energy
providers
End-use
customers
• Government agencies: set policies and enforce laws
that promote technology development/adoption and
market structures (e.g., electricity/gas regulation)
• Universities/research institutions: conduct basic
research (often with private sector partners) for future
commercialization of technologies and products
• Industry/trade groups: self-organize to shape the
emergence/growth/structure of the market and supply
chain
• Facilitating organizations: help the parties in various
targeted ways to promote the health of the market
Role of Foundation
Government
agencies
Non-profit
organizations
(NGOs)
•
•
•
•
Private sector
companies
The Cleveland
Foundation
Academia
Respected convener of parties
Funder of not-for-profit activities
No concerns about profitability or popularity
Keeper and speaker of the general interest (no
special interests)
Developments in Last 12 Months
• Ohio legislation:
– New Ohio energy law, including significant requirements for energy
efficiency and renewable energy adoption
– Significant grant program for advanced energy
• Regional efforts in Northeast Ohio:
– Significant activities to attract and expand manufacturing of
products for wind, solar and fuel cell sectors
– $1 million feasibility study to investigate demonstration project and
research center for offshore wind in Lake Erie
– Cleveland-Toledo collaboration to establish “green energy
corridor” for Northern Ohio
– Numerous energy efficiency, waste-to-energy and renewable
energy projects by various developers and hosts
– New energy research centers at Case Western Reserve University
and University of Akron
– Technology development underway at many corporations,
ventures, universities, colleges, research institutions
Ohio Advanced Energy Market
• Ohio utilities must obtain 25% of power from
advanced energy sources by 2025:
– At least ½ (12.5%) from renewables (of which 0.5% must
be solar)
– At least ½ from plants installed in Ohio
• Renewable requirements begin by end of 2009,
ramp-up to 2025:
– 4,500 estimated MW wind installed
– 450 estimated MW solar installed
• 22% reduction in electricity demand also required
by 2025
Other Ohio Financial Support
• $150 million (grants and lowinterest loans) over next 3 years
to deploy advanced energy
projects in Ohio
– $66 million for advanced coal
– $84 million for other
• $24 million in technology
development grants in 2009 for
advanced energy
– $11 million for fuel cells
– $13 million for other
• $3000 per student intern per year
to support workforce development
Many local
(city/municipal
and county)
incentives also
available
Primary Examples of
Advanced Energy in Ohio
• Fuel cells: recognized as a leader in fuel cell
technology development
• Wind: strong industrial/supply chain base,
good wind resource (especially in Lake Erie)
• Solar photovoltaics: world leader in thin-film
technologies
Closing Comments
• Energy industry in crisis: oil supply scarcity
and climate change
• New energy industry must be built in coming
decades, massive investment required
• Accelerating transition to advanced energy in
our region represents major economic
opportunity, and will improve performance on
key energy and environmental metrics
• Each of you can play a role in inventing the
advanced energy economy
Contact Information
Richard T. Stuebi
BP Fellow for Economic and Environmental
Advancement
The Cleveland Foundation
1422 Euclid Avenue, Suite 1300
Cleveland, OH 44115-2001
Phone: 216.685.2011
Fax: 216.861.1729
[email protected]