Greening Fossil Fuels - American Chemical Society · 2014-01-31 · Greening Fossil Fuels . Joan F....
Transcript of Greening Fossil Fuels - American Chemical Society · 2014-01-31 · Greening Fossil Fuels . Joan F....
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Greening Fossil
Fuels
Joan F. Brennecke
University of Notre Dame
American Chemical Society
Summer School on Green Chemistry
and Sustainable Energy
July 23, 2013
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Outline
• World energy demand
• Role of fossil fuels
• NOx, SO2, particulate, VOCs
• CO2
– Global climate change
– Carbon capture and sequestration
• Summary
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Source: US Energy Information Administration: International Energy Outlook 2011.
World Energy Use
Why the
large
increases?
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(Source: www.gregor.us via 2010 BP Statistical Review)
Where Do We Get Our Energy?
87%
from fossil fuels
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Where Will We Get Our Energy?
• % from fossil fuels
decrease
• Absolute amount
from fossil fuels
increase
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Energy Perspectives 2011. U.S. Energy Information
Administration, Office of Energy Statistics, Oct. 2011. Web.
Where Do We Get Our Energy?
United States
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https://flowcharts.llnl.gov/content/energy/energy_archive/energy_flow_2010/LL
NLUSEnergy2010.png
What do We Use it For?
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Role of Fossil Fuels • Fossil fuels > 85% of primary
energy consumption
• Coal ~ 50% of electricity
• Vigorous growth in renewables (wind, solar, cellulosic biomass) will require many decades before making significant contribution to primary needs
• U.S. has abundant reserves of coal and natural gas
• Will continue to use fossil fuels
• Need to use them responsibly (SO2, NOx, particulate, and CO2)
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Shale Gas Resources
Natural gas found trapped in shale formations
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- 1% of US NG
production in 2000
- 23% in 2010
- 49% in 2035
Shale Gas Development in US
CEP, August 2012
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Production of NG from Shale
CEP, August 2012
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Production of NG from Shale
CEP, August 2012
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- Land footprint
- Drill multiple wells from single pad (horizontal drilling)
- Induced seismicity
- Hydraulic fracturing creates permeability through microseismicity
- Subsurface disposal of wastewater and produced brine
- Air emissions
- Drilling/fracturing engines
- Water trucks (4 million gal./800 trucks)
- Compressor engines
- Flaring
- Fugitive emissions of shale gas liquids
- Water footprint
- Water sourcing
- Effect of roads and infrastructure on local water
-Transportation of reuse backflow water
- Groundwater contamination
- Complete well casing (5000 ft vs. <1000 ft)
- Produced water
- Treatment of surface wastewater
Production of NG from Shale
CEP, August 2012
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6
9
36
BTU Ratio Historical Average Current Ratio
Price of Oil / Price of Natural Gas
Shale Gas Changing the Game
David Bem, Dow Chemical
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Announced Ethylene Plants Announcements always
exceed actual construction
Current NA ethylene capacity
is about 32 million tpa
9.7 million tpa
Requires 10.4 million tpa
ethane (theoretical for
ethane feed only)
Projected new shale ethane
is about 12 million tpa
Ref: Chem Week, March 26, 2012
Shale Gas LIQUIDS to Chemicals
David Bem, Dow Chemical
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Emissions From Burning Fossil Fuels
• What do we use for home heating? What are the major emissions?
• What are the major emissions for transportation vehicles?
• Does it make sense to capture CO2 from transportation vehicles?
• What are the major emissions from power plants?
• Natural gas
• Coal
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Emissions – power plants
What are the typical emissions from a 500
MW coal fired power plant?
Coal used (tons)
CO2 (tons)
SO2 (tons)
NOx (tons)
Ash (tons)
Hg (lbs)
HCs, CO from incomplete combustion too hard
Particulate too hard
Calculate it – don’t ‘look it up’
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Emissions – power plants
What are the typical emissions from a 500
MW coal fired power plant?
Coal used (tons)
CO2 (tons)
SO2 (tons)
NOx (tons)
Ash (tons)
Hg (lbs)
HCs, CO from incomplete combustion too hard
Particulate too hard
What information do you need from me?
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Molecular weights
C 12
O 16
N 14
S 32
Hg 200.6
Emissions – power plants
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Why do we care about SO2 and NOx
emissions?
Why do we care about Hg emissions?
Why do we care about particulate
emissions?
Why do we care about HC emissions?
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What can we do to reduce our emissions?
• Improve cycle efficiency
• reheat, cogen, combined cycle…
• Limited by 2nd law of thermo (can’t turn all heat into work)
• Alternative combustion schemes
• Integrated gasification combined cycle (IGCC)
• Low NOx burners
• Thermal NOx (N2 from air)
• Need to keep temperature down
• Reduces NOx by 50%
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What can we do to reduce our emissions?
• Flue gas desulfurization
• Expose to limestone (CaCO3) to form gypsum (CaSO4) and calcium sulfite (CaSO3)
• Dry systems: 70-90% removal
• Wet systems: 95% removal
• Selective catalytic or non-catalytic reduction of NOx (SCR or SNCR)
• Inject ammonia (NH3 + NOx = N2 + H2O)
• SNCR: 40-60% removal
• SCR: 90% removal
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What can we do to reduce our emissions?
• Electrostatic precipitators (ESP) and fabric filters (FF)
• Both remove >99% of particulate matter
• FF better at getting out smaller particulates
• FF>99%
• ESP 85-95%
• Also remove Hg (especially FF)!
• Dry scrubber + FF removes > 95%
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CO2
• Why do we care about CO2 emissions?
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Historical Temperature ‘Data’ – Last 1000 years
This is the famous “hockey stick” diagram of Mann, Bradley and
Hughes (1998)
NOW PAST
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• Need energy balance on earth
• Need to know how carbon moves around
in our environment
Developing a Model of Effect of Greenhouse
Gases on Climate
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Energy Balance on the Earth
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Energy Balance on the Earth
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http://www.esrl.noaa.gov/gmd/ccgg/trends/
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radiantenergy
wavelength (m)
H2O H2O
O3CO2
Greenhouse Gases Absorb Infrared Radiation
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surface water
deep water
marine biota
terrestrial biota
soils & detritus
sediments
fossil fuel burning
deforestation
HYDROSPHERE
ATMOSPHERE
612
9 x 107
870
38000
1.8
1500
580
Amounts in PgC
(pre-industrial, ca1850)
The Carbon Cycle
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surface water
deep water
marine biota
terrestrial biota
soils & detritus
sediments
fossil fuel burning
deforestation
HYDROSPHERE
ATMOSPHERE
115.7
612
50 50
0.1
0.2
0.2
0.1
50
76.0
76.1
100 2 6
36
40
3.9 112
9 x 107
870
38000
1.8
1500
580
Amounts in PgC
Fluxes in PgC/y
(all pre-industrial, ca1850, except disturbances are current)
The Carbon Cycle
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IPCC 2007
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• CO2 concentrations in the atmosphere are increasing
• Global temperatures are increasing
• Is one causing the other? – Not as simple as plotting CO2 and temperature on
same graph
– IPCC says “very likely”
• Consequences? – Warming temperatures
– Rising sea levels (expansion and melting)
• Connection with other consequences much less certain
Observations
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Summary
• Meeting world energy needs is greatest challenge of this century
• Significant gains can be made in energy efficiency
• Will continue to use fossil fuels (especially coal and NG) until renewables grow to meet a significant fraction of our energy needs
• Shale gas has completely changed US energy and chemicals landscape
• Burning of fossil fuels is very likely linked to global climate change
• Need to use fossil responsibly – CO2 capture