The Future of Energy Fred Loxsom Eastern Connecticut State University.
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Transcript of The Future of Energy Fred Loxsom Eastern Connecticut State University.
The Future of Energy
Fred Loxsom
Eastern Connecticut State University
Atmospheric CO2 is rising.GHG concentration is rising
Environmental changes have been observed
Global Climate is Changing
Impacts may be severe
Fossil Fuels are the main cause
C + O2 CO2
We have choices to make
How do we reduce our carbon footprint?
Current Situation
85% of US primary energy is from fossil fuel
US Energy and CO2
Coal Consumption & Resources
Coal : 23% energy and 38% CO2
Oil: 38% energy and 41% CO2
NG: 23% energy and 21% CO2
US Energy End Use
Coal Consumption & Resources
40% energy electricity33% energy transportationRemainder heating & industry
Coal
Coal Consumption & Resources
About 50% of US electricity is generated by coal-burning power plants.
Future Coal Consumption
Because coal is cheap and plentiful, coal consumption is projected to increase rapidly.
Coal-Burning Power Plant
600 plants330 GW capacityBaseline power50% of US electricity typical plant500 MW capacity3.4 billion kWh annually3.4 MtCO2 annually SOx, NOx, Hg, particulatesMining and solid waste
Alternatives?
o Nuclearo Shale gaso Energy Efficiency and Conservationo Sequestrationo Distributed Solaro Central Solaro Windo Geothermalo Other
Nuclear Power after Fukushima
Nuclear Power
o 104 reactorso 100 GW capacityo Baseline powero 20% electricityo High capital costo Minimal CO2
Nuclear Power in the US
Nuclear Reactors:Boiling Water Reactor (BWR)
Indian Point
Unit 2 and Unit 3 were commissioned in 1974 and 1976.
Onsite Pool Storage
The spent fuel rod pool inside the Clinton Nuclear Power Plant in Clinton, Ill., is shown on Tuesday, Nov. 19, 1996. The water in the pool acts as a shield against radiation from the used uranium rods. The reactor was shut down due to an equipment malfunction Sept. 5, 1996. (AP Photo/Mark Cowan)
Dry Cask Storage
In this photo released by Holtec International, dry cask storage units are seen at the James A. Fitzpatrick nuclear power plant in Scriba, N.Y., in this undated photo. The Vermont Public Service Board approved "dry cask storage," of spent nuclear fuel at Vermont Yankee, lifting the threat that running out of room in its existing spent fuel storage pool would cause the plant to close by 2008.(AP Photo/Holtec International)
Long-Term Storage
Nuclear Accidents
Three Mile Island (1979)
Three Mile Island nuclear power plant is pictured in Jan. 21, 1996. This is the site of the 1979 partial core melt. (AP Photo/Tim Shaffer, files)
Chernobyl (1986)
Japan (2011)
Nuclear Future?
Shale Gas
Horizontal Drilling
Hydrofracturing
Efficiency and conservation
High Performance Buildings
Efficient Power Plants
Economic Incentives
Cap and Trade
Carbon Tax
Tax Credits
Rebates
Carbon Sequestration
Rooftop PV
PV: Denver Airport 4 MW
CSP: Parabolic Trough
CSP: Dish Engines
GE 3.6 MW Wind Turbines
Wind Resources
http://attra.ncat.org/images/renewables/windResourceMap2.jpg,,Retrieved on 2/11/2009
Geothermal Power Plant
Electricity Generation
Geothermal Energy Distribution
Selection Parameters
• Environmental Impact
• Cost
• Safety
• Footprint
• Reliability
• Acceptability
Summary: Future of Energy
• Must replace coal.
• Natural gas, but not as clean as it seems.
• Solar and Wind could supply 20%-50%, but better grid needed.
• Efficiency has great potential.
• Clean Coal & Geothermal -- ?
• Tar sands & other fossil fuel – high environmental price