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Wind & Sun
LA 4755 Lecture 11:energy from heaven
S 119E010500 http://external.jsc.nasa.gov/events/ISSPhotos/
“I'd put my money on the sun and solar energy. What a source of power! I hope we don't have to wait 'til oil and coal run out before we tackle that.”
-Thomas Edison (1847-1931)
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Wind & Sun17 November 2010 2
Wikipedia: Peter Corless 30 Sep 2005 Analysis of top 40 largest national economies (GDP) by plotting GDP per capita vs. 'energy efficiency' (GDP per million Btus consumed); an inverse examination of 'energy intensity.'
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Wind & Sun
Energy Efficiency
17 November 2010 3
www.cstep.in/docs/energy_efficiency_methods.png
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Wind & Sun
Reduce, Reuse, Recycle
17 November 2010 4
Lighting efficiency. Source: NRC, 2009. www.nae.edu/File.aspx?ID=14897
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Wind & Sun
Key Technology Gap
17 November 2010 5
International Energy Agency, Executive Summary, Energy Technology Perspective 2008
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Wind & Sun17 November 2010 6
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Wind & Sun17 November 2010 7
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Wind & Sun
SOLAR ENERGY
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www.trec-uk.org.uk/images/schott_parabolic_trough.jpg
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Wind & Sun
Energy Budget for the Planet
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http://www.plantsciences.ucdavis.edu/plantsciences_Faculty/Bloom/CAMEL/Art/EBalanceLg.jpg
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Wind & Sun17 November 2010 10
www.cd3wd.com/cd3wd_40/vita/envegypr/GIF/ESED2110.GIF
1366 w/m2
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Wind & Sun
Global Insolation
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www.oksolar.com/abctech/images/world_solar_radiation_large.gif
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Wind & Sun
Insolation is the inverse of cloudinesskWh/(kWp·y) (kilowatt hours per year per kilowatt peak rating)
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Wind & Sun
Insolation
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Wind & Sun
Solar Chart
University of Oregon, Solar Radiation Monitoring Laboratory http://solardat.uoregon.edu/SunChartProgram.html
Optimum solar orientationImage: http://telemetryhelp.com/solar_power_design_tools.asp
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Wind & Sun17 November 2010 16
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Wind & Sun17 November 2010 17
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Wind & Sun17 November 2010 18
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Wind & Sun
Solar Thermal
Hot water, warm air, and radiant heat
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Wind & Sun
Concentrating Solar Power I
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http://upload.wikimedia.org/wikipedia/commons/4/40/Solarplant-050406-05.jpg
Rule of thumb: one megawatt of solar-generated power requires about eight acres of land. 1mW = 1,000 homes
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Wind & Sun
Concentrating Solar Power II
Image: www.sandia.gov Sandia National Laboratory, Solar Sterling Engine Generators17 November 2010 21
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Wind & Sun 22
Concentrating Solar Power III
http://upload.wikimedia.org/wikipedia/commons/e/eb/PS10_solar_power_tower.jpg17 November 2010 22
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Wind & Sun17 November 2010 23
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Wind & Sun17 November 2010 24
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Wind & Sun
Brightsource Energy –Ivanpah, CA• 370 megawatt nominal (392
megawatt gross) concentrated solar thermal complex
• Prevent emission of 400k tons/year of CO2 from other energy sources
• Provides peak power to more than 140,000 homes in California
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Wind & Sun
Downside to CSP
Requires lots of land (but less then a coal mine!)• Sites are graded and cleared - disrupting ecological habitat• Roads and fencing disrupt animal movement
Requires lots of water for cleaning and operation (typically located in arid bioregions)
Reflections and glare can be distracting or dangerousMay requires expensive connections to grid
Without thermal storage, energy production is limited to daytime and sunny days
Can disrupt scenic vistas
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Wind & Sun
Photovoltaic Efficiencies
National Renewable Energy Laboratory
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Wind & Sun
Photovoltaic Technology
17 November 2010 28
International Energy Agency: Photovoltaic Roadmap
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Wind & Sun
PV Industry Trends
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Wind & Sun
1366 Technologies
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Wind & Sun
Solar Tree
A photovoltaic system ' tree' in Styria, Austria
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Wind & Sun
Solar Canopy
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Wind & Sun
Building Integrated PhotoVoltaics (BiPVs)
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Wind & Sun
Solar Roofs
17 November 2010 34
260 kilowatt PV systemSanta Cruz, California
http://www.electroroof.com/
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Wind & Sun
Downsides to Photovoltaics
Manufacturing process (silicon) is:• Energy intensive• Uses toxic materials (silane, SiCl4, solvents and heavy metals)• Uses SF6 a very very very potent green house gas 25,000 worse then CO2• Can be a source of air and water pollution
Manufacturing Thinfilm PV cells is:• Uses toxic materials (solvents and heavy metals)• Uses nano materials with unknown environmental and health risks• Limited supplies of critical elements and minerals
Photovoltaics are a challenge to recyclable Like other ‘E-Wastes’ PVs can leach toxic materials into groundwater and air
Silicon Valley Toxics Coalition17 November 2010 35
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Wind & Sun
Algae Fuel & Bio Fuels
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Wind & Sun17 November 2010 37
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Wind & Sun17 November 2010 38
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Wind & Sun17 November 2010 39
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Wind & Sun
Solar Chimney – hybrid solar thermal wind turbine
Image: Solar Chimney, Manzanares, Spain - © Schlaich Bergermann und Partner www.sbp.de
Location Manzanares, SpainType of structure Pilot plant: tower of 194 m height and 10 m diameter, translucent membrane / glass roof of 40,000 / 6,000 sqmOwner/Client supported by: Bundesministerium für Forschung und Technologie, Bonn
Completed 1989Scope of our work Basic research: design, construction, operation and evaluationCooperation Maurer Söhne, MünchenBalcke-Dürr, RatingenSiemens Interatom, Bergisch Gladbach
A Solar Chimney converts solar radiation (direct and diffuse) into electricity by combining three well-known principles: the greenhouse effect, the chimney and wind turbines in a novel way. Hot air is produced by the sun under a large glass roof. This flows to a chimney in the middle of the roof and is drawn upwards. This upwind drives turbines installed at the base of the chimney and these produce electricity. A 50 kWel prototype was built in Manzanares, Spain, and produced electricity for seven years, thus proving the efficiency and the reliability of this new kind of solar power generating system. Tall Solar Chimneys could produce 100 or 200 MW each and power production cost may go down below 0.07 €/kWh.
Chimney height 200 mCollector diameter 240 mTurbine 50 kWelMaterial Quantities -Chimney diameter 10 mCollector height 2 mCollector area 45,000 m²Chimney weight 125 tCollector weight 5.5 kg/m² (without glass)
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Wind & Sun
The Solar Landscape
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Wind & Sun
The next energy frontier?
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Wind & Sun
Light Pollution
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Wind & Sun
Light Pollution II
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Wind & Sun
Air Pollution Mitigation through Vegetation
Air pollution is reduced by deposition, precipitation, and wind• Plants produce Oxygen• Sequester Carbon from the atmosphere• Stomata uptake VOCs, NOx, SO2 CO & CO2, O3 Smog, and PM10
• Vegetation provide surface areas to collect particulate that can then be washed into the soil during rain
US urban trees estimated at 711,000 metric tons ($3.8 billion value). This can be modeled!
Minneapolis trees absorb 6.2 g/m2 /a (this is lower then average due to short growing season)
• Cooling/shading reduces urban heat islands and the formation of smog• Noise absorption
• Excessive pollen is an air pollutant – don’t specify all male trees
• Trees can also produce VOCs (turpentine and others) in hot weather
David J. Nowak et al, Air pollution removal by urban trees and shrubs in the United States, Urban Forestry & Urban Greening 4 (2006)
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Wind & Sun
Clean Air Materials
Titanium Dioxide – photocatalyst for VOCs• Can be an admixture in concrete and other masonry products• Common, non-toxic pigment (white)• Integrated into self-cleaning coatings • Requires exposure to UV light and water (rain or hose)
Low VOC adhesives, coatings, and other building materials available
Photo by Jvstin, http://www.flickr.com/photos/jvstin/2856180350/
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Wind & Sun
Announcements
Week 12 field trip – NO REGULAR SCHEDULED CLASSES
Monday, November 22nd10:15 to 12pm Steam Plant tour –
NO CAMERAS ALLOWED
Tuesday, November 23rd1 to 2pm St. Anthony Locks –
cameras allowed2 to 3pm SAFL tour -3 to 4:30 Steam Plant Tour
(pending) – NO CAMERAS
See MOODLE for map to tour locations.
E3 2010: November 30 & December 1, 2010
http://www1.umn.edu/iree/e3/
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Wind & Sun
ReferencesTomlinson, Technology for a Low Carbon Future. The Climate Group 2009
http://www.theclimategroup.org/assets/resources/Technology_for_a_low_carbon_future_full_report.pdfhttp://nrel.gov/
http://www1.eere.energy.gov/buildings/program_areas.html
http://www.energypulse.net/centers/article/article_display.cfm?a_id=1164
Silicon Valley Toxics Coalition, Towards a Just and Sustainable Solar Industry, 2009
http://apps1.eere.energy.gov/buildings/tools_directory/software.cfm/ID=123/pagename=alpha_list
http://www2.aud.ucla.edu/energy-design-tools/
www.toolsforsustainability.com/Solar and Wind Energy Resource Assessment (SWERA), UNEP/GRID-Sioux Falls http://swera.unep.net
http://reference.findtarget.com/search/Photovoltaics/
http://www.basinandrangewatch.org/SolarDesert.html
http://www.af.net/1-1-Home.html
USDA Forest Service Gen. Tech. Rep. PSW-GTR-191. 2005
http://www.awea.org/sitinghandbook
www.wind-energy-the-facts.org
2010 Creative Commons Rights Reserved by Barry Lehrman [email protected]
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