Geothermal Energy - PowerPoint PPT Presentation

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Geothermal Energy

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Geothermal Energy Production, Problems, and Possibilities Jessica Lindberg Kozarek April 23, 2001 Geothermal Energy A Renewable Resource. Sources of Geothermal ... – PowerPoint PPT presentation

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Title: Geothermal Energy


1
Geothermal Energy
  • Production, Problems, and Possibilities
  • Jessica Lindberg Kozarek
  • April 23, 2001

2
Geothermal EnergyA Renewable Resource.


3
Sources of Geothermal Electricity
4
Availability of Geothermal Energy
5
Geothermal Power Plant
Dry Steam Units 5 and 6 at The Geysers, California
6
Three Types Geothermal Power Plants in Use.
  • Dry Steam Power Plant
  • Flash Steam Power Plant
  • Binary Cycle Power Plant

7
Dry Steam Power Plant
  • Oldest, first built in Lardello, Italy in 1904.
  • Uses steam reservoirs (High T)
  • Emits only steam and trace gases.

8
Flash Steam Power Plant
  • Originated in New Zealand.
  • T gt 400 oF.
  • Uses High Temperature and Pressure Water
    Reservoirs.
  • Emits only steam and trace gases.

9
Binary Cycle Power Plant
  • T lt 400 oF
  • Closed Loop
  • Almost no emissions.

10
Production
  • Cost is upfront
  • 2000 per installed kWh
  • Well Drilling and Pipeline Construction
  • Resource analysis of drilling information
  • Power plant design
  • Operating Costs
  • 0.015-0.045 per kWh
  • Availability of 90 of the time increases cost.

11
Problems
  • Fluid rock chemistry and reservoir
    characteristics difficult to simulate.
  • Acid content in water.
  • Dissolved salts and gases modify properties of
    steam.
  • In water-dominated systems, steam must be
    separated to produce electricity.
  • Cold injection water can produce major problems
    if it reaches production well.

12
Problems, cont.
  •  Increased seismic activity with exploitation of
    geothermal reservoirs.
  •  Cheap oil and natural gas prices.
  •  Resource depletion.
  •  Damage and changes to natural tourist
    attractions.
  • High cost of drilling.

13
Geothermal vs. Fossil Fuels
  • Less Emissions
  • Less Area
  • More Availability (time)
  • Less Transportation
  • Less Availability (geographic)

14
Geothermal Emissions
  • Geothermal Plants Emit
  • 70 less SOx
  • 33 less NOx
  • 20 of greenhouse gases
  • This prevents the emission of
  • 22 million tons CO2 per year
  • 200,000 tons SO2 per year
  • 110,000 tons PM per year

15
Area
  • Advanced directional or slant drilling minimizes
    impact on land.
  • Several wells can be drilled from one pad.
  • Typically 400m2 per gigawatt over 30 yrs.
  • 1-8 acres/MW for geothermal vs. 5-10 acres/MW for
    nuclear and 19 acres/MW for coal.

16
Availability
  • Geothermal plants 95
  • Coal plants 60-70
  • This results in a higher cost
  • but enables the plant to charge
  • more during peak times.

17
Possibilities
  • Recovery and Recycling of byproducts.
  • Biological Treatment for disposal of Geothermal
    Sludge.
  • Wastewater recycling.
  • Chemical Tracers for reservoir understanding.
  • Use of hot dry rock for electricity generation.
  • Use of deeper wells and magma for electricity
    generation.

18
Recovery and Recycling
  • H2S is separated and used for sulfuric acid
    production.
  • Metals such as zinc are recovered and sold for
    profit.
  • Silica from microbial processes can be recycled
    as concrete filler.

19
Biological Treatment of Geothermal Sludge
  • Biological treatment can be used for
  • Solubilization and removal of of many metals
    including radionuclides.
  • Selective removal of a few metals.
  • Concentration of metals.
  • Recovery of metals.
  • Recovery of Salts.
  • Water can be used for reinjection/irrigation.

20
Wastewater RecyclingSanta Rosa California
21
Chemical Tracers
  • Provide an insight into the pathways that
    reinjected fluid will take in the geothermal
    reservoir.
  • Must be stable enough to endure weeks to years of
    geothermal testing.
  • Are usually non-toxic, and non-radioactive to
    avoid groundwater contamination.

22
Hot Dry Rock and Magma
  • These resources are being examined in other
    countries.
  • Hot Dry Rock has actually been used to produce
    electricity, but the technology is limited.
  • Drilling techniques are not yet advanced enough
    to utilize magma energy.

23
Future for Geothermal Energy
  • Clean power for developing countries.
  • More geothermal power production in the western
    U.S.
  • through programs such as Geopowering the West.
  • Even cleaner production through better technology
  • and understanding of geothermal reservoirs,
    recycling,
  • and reinjection.
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