Carbon Cycle 2.0 at Berkeley Lab: Team Science for Clean Energy · 2013-05-22 · Carbon Cycle 2.0...
Transcript of Carbon Cycle 2.0 at Berkeley Lab: Team Science for Clean Energy · 2013-05-22 · Carbon Cycle 2.0...
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Carbon Cycle 2.0 at Berkeley Lab:Team Science for Clean Energy
Ar#ficial Photosynthesis
Energy Storage
Combus#on
Carbon Capture & Storage Developing
World
Energy Efficiency
Photovoltaics
Biofuels
Energy Analysis
Climate Modeling
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Opportunity for buildings energy efficiency research
A 2000 National Academy of Sciences estimate of economic benefits of energy efficiency R&D assigns $23 billion in savings to LBNL-derived technologies, and an additional $48 billion in savings from energy efficiency standards
Where energy is consumed in the US
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FLEXLAB A new user facility for building efficiency! series of configurable test-bed facilities to develop and evaluate low-energy, integrated building systems under realistic operating conditions
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70 mi. range "(round trip)
Energy Storage Research Opportunity Goal: Batteries with five times the energy density at one-fifth the cost in five years
350 miles 70 miles
$150/mile of range $30/mile of range 1/5th battery cost
5 times energy density
2013 Technology 2018 Goals
Argonne National Lab and Berkeley Lab created this unique partnership with other labs, universities and companies
battery densities improving at only 5% per year
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• 40% of electricity produc#on from Solar at peak • Total of 190 GWh produc#on that day • 14% of electricity produced over the 24 hr period • The Solar Energy Storage Problem
Electricity production from solar and wind in Germany in 2012, Compiled by Prof. Bruno Burger, Fraunhofer ISE, October 22, 2012
On May 25, 2012 Germany produced 22.4 GWp from Solar Energy
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• JCAP Mission is to demonstrate an artificial photosynthetic system that generates fuel from carbon dioxide (CO2) and water (H2O) using the sun’s energy
• Robust light absorbers and catalysts made of Earth abundant elements are developed and assembled into scalable prototypes for solar fuel generation
Natural Photosynthesis Artificial Photosynthesis
inspires
Goal is solar fuels tech for large scale deployment on non-arable land
fuel
scale up
fuel
Macroscale Prototypes
Functional system using engineered materials
m2
µm
suitable for km2
micro
Joint Center for Artificial Photosynthesis
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Opportunity to impact global carbon cycle through technologies for developing world
source: gapminder.org
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Darfur Stove reducing CO2 and saving lives
Safe drinking water for more than 1 million people daily
Biology to create lowest-cost malaria treatment available
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Lab Institute for Globally Transformative Technologies builds on history of success
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Ar#ficial Photosynthesis
Energy Storage
Combus#on
Developing World
Energy Efficiency
Photovoltaics
Biofuels
Energy Analysis
Climate Modeling
Co-design center w/
SNL
2 EFRCs; Potential Institute
Advanced Biofuel Production
Development Unit & JBEI
Renewal DOE Energy Innovation Hub: JCAP
New Institute:
LIGTT
FLEXLAB: New User Testbed Facility
Bay Area PV Consortium
JCESR & CalCharge
Carbon Capture & Storage
Carbon Cycle 2.0 Major Programs