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How do you use energy?. Your life – How do you use energy? Rank order the energy use by highest to lowest amount. Rank order them in GHG emissions How do you use electricity?. READ: U.S. DOE Energy Perspectives http://www.eia.gov/emeu/aer/pdf/perspectives_2009.pdf. - PowerPoint PPT Presentation
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How do you use energy?
• Your life –– How do you use energy?
• Rank order the energy use by highest to lowest amount.
• Rank order them in GHG emissions
– How do you use electricity?
READ: U.S. DOE Energy Perspectiveshttp://www.eia.gov/emeu/aer/pdf/perspectives_2009.pdf
http://www.eia.doe.gov/energyexplained/index.cfm?page=us_energy_home
How we use Electricity
Per average household
Household Electricity Consumption
Air-Conditioning17%
Space Heating11%
HVAC Appliances5%
Kitchen Appliances
29%
Water Heating10%
Lighting10%
Home Electronics8%
Laundry Appliances
7%
Other Equipment3%
Electricity is 42% of home energy use
U.S. Total Residential Energy Use
0
5
10
15
20
25
1970 1980 1990 2000 2010Ene
rgy
Use
(qu
adrll
ion
Btu
s)
Direct UseDirect Electricity Use
Electrical system energy losses
Grand Total
Source: Energy Information Administration/Monthly Energy Review December 2007; www.eia.doe.gov
Definitions
Energy:
A measure of the ability to do work.
Power:
The rate at which energy is used.
Key Point !
POWER ≠ ENERGYWork = Force x Distance (Joules)
Work = Energy
Power = Energy (J/s = Watts) Time
So Energy = Power x time (kWh)
What is ENERGY efficiency?
ProcessOutputInput
Other outputs (non-useful)
𝑬𝒇𝒇𝒊𝒄𝒊𝒆𝒏𝒄𝒚=𝑶𝒖𝒕𝒑𝒖𝒕 𝑬𝒏𝒆𝒓𝒈𝒚𝑰𝒏𝒑𝒖𝒕 𝑬𝒏𝒆𝒓𝒈𝒚
< 1.0
Light Bulb Energy Use
Consider a 100 watt light-bulb:
– 100 watts for one hour is 100 watt-hours or 0.1 kWh
Since 1 kWh costs approximately 17 cents, your 100 watt bulb costs about 1.7 cents to operate for an hour
$31/y if on 5 h/d; 365 d/y
How can you decrease your cost?
Electricity(electric)
Light(radiant)
Useable energy
Heat(thermal energy)
(not useful energy)
• Turn the light OFF
• Replace bulb with CFL
Conservation
Efficiency
Focus on Efficiency
• Less than 1/4 energy used in stove reaches food• Waste heat from US power plants could power the
Japanese economy• 15% of energy in gasoline reaches wheels of a car • 2.7 mpg increase in light vehicle fleet would
displace Persian Gulf imports
(Amory Lovins)
ProcessUseful Energy OutEnergy in
Other energy outputs (non-useful) (e.g., heat)
Focus on Increased efficiency
Insu
lati
on
imp
rovem
en
ts
Fuel effi
cien
t co
mm
erc
ial vehic
les
Effi
cient
ligh
ting
Effi
cient
wate
r h
eati
ng
Cellu
losi
c eth
anol
Su
gar
cane e
than
ol
Fuel effi
cien
t vehic
les
Carb
on c
aptu
re –
new
coal pow
er
pla
nts
Win
d
Fore
stati
on
Sola
r
Sw
itch
– c
oal to
gas
pow
er
pla
nts
Carb
on c
aptu
re –
re
trofit
coal p
ow
er
pla
nts
Cost
of
Carb
on
Savin
gs (
Eu
ros/t
on
ne C
O2)
50
0
-50
-100
-150
(The Economist June 2, 2007)
What Makes our Energy Use “Efficient”?
• Most of energy input converted into most useable form of output.
– Our use of the process is “efficient”
– The technological product itself is efficient
– The production of the energy we use is efficient
What makes a system NOT efficient
• Heat related– Seals not shut tightly– Poorly insulated
• Power / electronics– Not turned off when done– Conversion process creates un-useable forms of energy
• Heat• Vibration• Noise
– Phantom loads
To fix inefficiencies • Change the user habits
• Change to better technology
processing
Efficiency of electricity generation• Electricity is a Secondary Energy Source• Coal electricity home = very inefficient
Fossil fuel combustionFossil
fuelturbineThermal
energy
engine,turbine Mechanical
energy
Conversion to
electricity electricity
Extraction
Energy Flows
Energy Efficiency of power plants:Coal 30-46%NG 33-53%Residual Oil 35%Biomass 32-40%
100 MJ ?? MJ
“Losses” “Losses”“Losses”
Did You Know?A pound of coal supplies enough electricity to power ten 100-watt light bulbs for about an hour.
Estimating CO2 emissions
Coal75% Carbon30,000 kJ/kg1000 kg
CO2
?? kg/MWh
Electricity?? MWh
Coal-fired Power Plant33.3% efficient
2.78 MWh
2750 kg CO2
990 kg CO2/MWh
IPCC Estimation Approaches• Tier 1:
– All C atoms in fuel eventually ends up as CO2
– CH4 and N2O from IPCC default emission factors that vary by technology and fuel
• Tier 2: Region-specific Emission Factors– Primary fuel X emission X equivalency
consumed factor factor (GWP)
= mass CO2 eq./energy value– Emission factors vary
• by fuel • technology used to consume fuel• therefore, by country, region
– Emission factors from IPCC and other sourceshttp://www.ipcc-nggip.iges.or.jp/public/2006gl/pdf/2_Volume2/V2_1_Ch1_Introduction.pdf
CO2 emissions - various fuels
0 20 40 60 80 100 120
Natural GasLiquefied petroleum gas
PropaneAviation gasoline
Automobile gasolineKerosene
Fuel oilWood and wood waste
Coal (bituminous)Coal (subbituminous)
Coal (lignite)Coal (anthracite)
CO2 emitted (g/106 J fuel combusted)
What are the consequences of fuel choice on GHG emissions?
Electricity from Coal
HydroelectricityNuclear Electricity ?
Example – CO2 from Electricity
• Questions:– How much GHGs do you generate with electricity use?– Does it matter where you live?– Explain Why or Why not– What can you conclude about New York State?
• Procedure:– Explore fuels used and resulting CO2 emissions– http://epa.gov/powerprofiler
Your home town (or school) East Hampton NY 11937 Chicago IL 60601Boston MA 02129 Kansas City MO
64101Seattle WA 98101 Atlanta GA 30301Los Angeles CA 90001 Denver CO
80012Columbus OH 43201 Honolulu HI 96801
Regional differences do matter
http://cfpub.epa.gov/egridweb/reports.cfm - summary tables - 2005
U.S. Total
What is a lifecycle perspective?
• Typical approach– Reduce environmental impacts in one
component– Create new and different environmental
impacts in another component• Better approach
– Consider the whole systems rather than small and isolated parts of a system
Electricity from Coal
Electric Power Transmission
Electric carElectricity
Use
Coal from mining
Air Emission
s
Air Emission
s
UseWater
Spills toWater/Soil
UseWater
Hydroelectricity
Transportation
Fuel Use
Air Emissions
and processing
Nuclear fuel mining Nuclear
Electricity
UseWater
UseWater
Petroleum Fuel
Fuel Use
LC GHGs vary by electricity fuel source
Coal Lifecycle Emission Factors
Coal Mining and Cleaning
Coal Mining: Non-Combustion Emissions
Coal Transportation to Power Plants
IGCC Turbine
total for coal
% at combustion
CH4 1.09E+00 1.17E+02 8.74E-01 5.10E+00 1.24E+02 4.1%
N2O 1.36E-02 1.82E-02 5.10E+00 5.13E+00 99.4%
CO2 8.78E+02 7.56E+02 1.08E+05 1.10E+05 98.5%
(g/million Btu)
Emission Factors for NYEnergy Source kg CO2 kg eCO2 per
Natural Gas 52.76 52.92 mmBtu
Wood Chips 14.43 155.46 short ton
Wood Pellets 14.43 155.46 short ton
Gasoline Fleet 8.71 8.93 gallon
Diesel Fleet 9.99 10.08 gallon
E85 Fleet 0.95 1.18 gallon
B20 Fleet 7.85 7.94 gallon
B100 9.46 9.55 gallon
Electricity (NY) 0.33 0.33 kWh
Air travel 0.77 0.78 mile
Clean Air Cool Planet - http://www.cleanair-coolplanet.org/toolkit/inv-calculator.php
Energy/GHG - Key Points• Energy demand and GHG emissions
continue to grow• US relies a great deal for generating
electricity on coal - (~50%) on the worst fossil fuel in terms of CO2 emissions
• Efficiency of our energy systems low• What do we do to “fix” this?
Defining Priorities
• What sector(s) should we focus on?
• Why?
Further reading
• EPA – Energy and You– http://www.epa.gov/cleanenergy/energy-and-you/index.html
• DOE – Energy and the Environment– http://www.eia.doe.gov/energyexplained/index.cfm?page=environment_
where_ghg_come_from
• World Resources Institute – Climate Analysis Indicator Tool– http://cait.wri.org/
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