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Nonrenewable EnergyNonrenewable Energy
ChaptersChapters
1. Energy Resources1. Energy Resources
2. Oil
3. Natural Gas
4. Coal
5. Nuclear Energy
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Energy SourcesEnergy Sources
Modern society requires large quantities of energy that
are generated from the earth’s natural resources.
Primary Energy Resources: The fossil fuels(oil, gas,
and coal), nuclear energy, falling water, geothermal, and
solar energy.
Secondary Energy Resources: Those sources which
are derived from primary resources such as electricity,
fuels from coal, (synthetic natural gas and synthetic
gasoline), as well as alcohol fuels.
ThermodynamicsThermodynamics
The laws of thermodynamics tell us two
things about converting heat energy from
steam to work:
1)1) The conversion of heat to work cannot be 100
% efficient because a portion of the heat is
wasted.
2)2) The efficiency of converting heat to work
increases as the heat temperature increases.
Energy Units and UseEnergy Units and Use
Btu (British thermal unit) - amount of energy
required to raise the temperature of 1 lb of water
by 1 ºF.
cal (calorie) - the amount of energy required to
raise the temperature of 1 g of water by 1 ºC.
Commonly, kilocalorie (kcal) is used.
1 Btu = 252 cal = 0.252 kcal
1 Btu = 1055 J (joule) = 1.055 kJ
1 cal = 4.184 J
Two other units that are often seen are the horsepowerTwo other units that are often seen are the horsepower
and the watt. These are not units of energy, but are unitsand the watt. These are not units of energy, but are units
of power.of power.
1 watt (W) = 3.412 Btu / hour1 watt (W) = 3.412 Btu / hour
1 horsepower (hp) = 746 W1 horsepower (hp) = 746 W
Watt-hour - Another unit of energy used only to describeWatt-hour - Another unit of energy used only to describe
electrical energy. Usually we use kilowatt-hour (kW-h)electrical energy. Usually we use kilowatt-hour (kW-h)
since it is larger.since it is larger.
quad (Q) - used for describing very large quantities ofquad (Q) - used for describing very large quantities of
energy. 1 Q = 10energy. 1 Q = 101515
BtuBtu
Energy Units and UseEnergy Units and Use
Evaluating Energy ResourcesEvaluating Energy Resources
U.S. has 4.6% of world population; uses
24% of the world’s energy;
84% from nonrenewable fossil fuels (oil, coal,
& natural gas);
7% from nuclear power;
9% from renewable sources (hydropower,
geothermal, solar, biomass).
Changes in U.S. Energy UseChanges in U.S. Energy Use
www.bio.miami.edu/beck/esc101/Chapter14&15.pptwww.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Energy resources removed from the
earth’s crust include: oil, natural gas,
coal, and uranium
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Fossil FuelsFossil Fuels
Fossil fuels originated from the decay of living
organisms millions of years ago, and account for
about 80% of the energy generated in the U.S.
The fossil fuels used in energy generation are:
Natural gas, which is 70 - 80% methane (CH4)
Liquid hydrocarbons obtained from the distillation of
petroleum
Coal - a solid mixture of large molecules with a H/C
ratio of about 1
Problems with Fossil FuelsProblems with Fossil Fuels
Fossil fuels are nonrenewable resources
At projected consumption rates, natural gas
and petroleum will be depleted before the end
of the 21st century
Impurities in fossil fuels are a major source
of pollution
Burning fossil fuels produce large amounts
of CO2, which contributes to global warming
1. Energy Resources
2. Oil2. Oil
3. Natural Gas
4. Coal
5. Nuclear Energy
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
OilOil
Deposits of crude oil often are trapped within
the earth's crust and can be extracted by drilling
a well
Fossil fuel, produced by the decomposition of
deeply buried organic matter from plants &
animals
Crude oil: complex liquid mixture of
hydrocarbons, with small amounts of S, O, N
impurities
How Oil Drilling Works by Craig C. Freudenrich, Ph.D.
Sources of OilSources of Oil
•Organization of Petroleum Exporting Countries
(OPEC) -- 13 countries have 67% world
reserves:
• Algeria, Ecuador, Gabon, Indonesia, Iran,
Iraq, Kuwait, Libya, Nigeria, Qatar, Saudi
Arabia, United Arab Emirates, & Venezuela
•Other important producers:
Alaska, Siberia, & Mexico.
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nonrenewable Energy-senatorlibya
Oil in U.S.Oil in U.S.
•2.3% of world
reserves
•uses nearly 30%
of world
reserves;
•65% for
transportation;
•increasing
dependence on
imports. www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nonrenewable Energy-senatorlibya
Low oil prices have stimulated economic growth, they
have discouraged / prevented improvements in energy
efficiency and alternative technologies favoring
renewable resources.
• Burning any fossil fuel releases carbon dioxide into the
atmosphere and thus promotes global warming.
• Comparison of CO2 emitted by fossil fuels and nuclear
power.
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
OilOil
Crude oil is transported to a refinery
where distillation produces
petrochemicals
How Oil Refining Works
by Craig C.
Freudenrich, Ph.D.
Nonrenewable Energy-senatorlibya
Nonrenewable Energy-senatorlibya
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1. Energy Resources
2. Oil
3. Natural Gas3. Natural Gas
4. Coal
5. Nuclear Energy
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Natural Gas - Fossil FuelNatural Gas - Fossil Fuel
• Mixture
•50–90% Methane (CH4)
•Ethane (C2H6)
•Propane (C3H8)
•Butane (C4H10)
•Hydrogen sulfide (H2S)
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Sources of Natural GasSources of Natural Gas
•Russia & Kazakhstan - almost 40% of
world's supply.
•Iran (15%), Qatar (5%), Saudi Arabia
(4%), Algeria (4%), United States (3%),
Nigeria (3%), Venezuela (3%);
•90–95% of natural gas in U.S. domestic
(~411,000 km = 255,000 miles of
pipeline).
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
billion cubic metres
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Natural GasNatural Gas
Experts predict increased use of natural gas during
this century
Nonrenewable Energy-senatorlibya
Natural GasNatural Gas
When a natural gas field is tapped, propane and
butane are liquefied and removed as liquefied
petroleum gas (LPG)
The rest of the gas (mostly methane) is dried,
cleaned, and pumped into pressurized pipelines
for distribution
Liquefied natural gas (LNG) can be shipped in
refrigerated tanker ships
Nonrenewable Energy-senatorlibya
1. Energy Resources
2. Oil
3. Natural Gas
4. Coal4. Coal
5. Nuclear Energy
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Coal: Supply and DemandCoal: Supply and Demand
Coal exists in many forms therefore a chemical
formula cannot be written for it.
Coalification: After plants died they
underwent chemical decay to form a product
known as peat
Over many years, thick peat layers formed.
Peat is converted to coal by geological events such
as land subsidence which subject the peat to great
pressures and temperatures.
garnero101.asu.edu/glg101/Lectures/L37.ppt
Nonrenewable Energy-senatorlibya
Ranks of CoalRanks of Coal
Lignite: A brownish-black coal of low quality (i.e.,
low heat content per unit) with high inherent moisture
and volatile matter. Energy content is lower 4000
BTU/lb.
Subbituminous: Black lignite, is dull black and
generally contains 20 to 30 percent moisture Energy
content is 8,300 BTU/lb.
Bituminous: most common coal is dense and black
(often with well-defined bands of bright and dull
material). Its moisture content usually is less than 20
percent. Energy content about 10,500 Btu / lb.
Anthracite :A hard, black lustrous coal, often referred
to as hard coal, containing a high percentage of fixed
carbon and a low percentage of volatile matter.
Energy content of about 14,000 Btu/lb.
www.uvawise.edu/philosophy/Hist%20295/ Powerpoint%5CCoal.ppt
PEATPEAT
LIGNITELIGNITE
garnero101.asu.edu/glg101/Lectures/L37.pptgarnero101.asu.edu/glg101/Lectures/L37.ppt
BITUMINOUSBITUMINOUS
ANTHRACITEANTHRACITE
garnero101.asu.edu/glg101/Lectures/L37.pptgarnero101.asu.edu/glg101/Lectures/L37.ppt
Main Coal DepositsMain Coal Deposits
BituminousBituminous
AnthraciteAnthracite
SubbituminousSubbituminous
LigniteLignite
garnero101.asu.edu/glg101/Lectures/L37.ppt
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Advantages and DisadvantagesAdvantages and Disadvantages
Pros
•Most abundant fossil fuel
•Major U.S. reserves
•300 yrs. at current consumption rates
•High net energy yield
Cons
•Dirtiest fuel, highest carbon dioxide
•Major environmental degradation
•Major threat to health © Brooks/Cole Publishing Company / ITP
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Sulfur in CoalSulfur in Coal
When coal is burned, sulfur is released
primarily as sulfur dioxide (SO2 - serious
pollutant)
Coal Cleaning - Methods of removing sulfur
from coal include cleaning, solvent refining,
gasification, and liquefaction Scrubbers are
used to trap SO2 when coal is burned
Two chief forms of sulfur is inorganic (FeS2 or
CaSO4) and organic (Sulfur bound to Carbon)
CoalCoal
Coal gasification → Synthetic
natural gas (SNG)
Coal liquefaction → Liquid fuels
Disadvantage
Costly
High environmental impact
1. Energy Resources
2. Oil
3. Natural Gas
4. Coal
5. Nuclear Energy5. Nuclear Energy
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nuclear EnergyNuclear Energy
In a conventional nuclear power
plant
a controlled nuclear fission chain
reaction
heats water
produce high-pressure steam
that turns turbines
generates electricity.
Nuclear EnergyNuclear Energy
Controlled Fission
Chain Reaction
neutrons split the
nuclei of atoms such
as of Uranium or
Plutonium
release energy (heat)
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Controlled Nuclear Fission ReactionControlled Nuclear Fission Reaction
cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-%203.ppt
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
• Radioactive decay continues until the the original
isotope is changed into a stable isotope that is not
radioactive
• Radioactivity: Nuclear changes in which unstable
(radioactive) isotopes emit particles & energy
RadioactivityRadioactivity
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
• Types
• Alpha particles consist of 2 protons and 2 neutrons,
and therefore are positively charged
• Beta particles are negatively charged (electrons)
• Gamma rays have no mass or charge, but are a form
of electromagnetic radiation (similar to X-rays)
• Sources of natural radiation
• Soil
• Rocks
• Air
• Water
• Cosmic rays
RadioactivityRadioactivity
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Relative
Doses
from
Radiation
Sources
cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-%203.ppt
The time needed for one-half of the nuclei in a
radioisotope to decay and emit their radiation to
form a different isotope
Half-time emitted
Uranium 235 710 million yrs alpha, gamma
Plutonium 239 24.000 yrs alpha, gamma
During operation, nuclear power plants
produce radioactive wastes, including some
that remain dangerous for tens of thousands
Half-LifeHalf-Life
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Diagram of Radioactive Decay
cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-%203.ppt
• Genetic damages: from mutations
that alter genes
• Genetic defects can become
apparent in the next generation
• Somatic damages: to tissue, such as
burns, miscarriages & cancers
Effects of RadiationEffects of Radiation
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
1. Low-level radiation (Gives of low amount of
radiation)
• Sources: nuclear power plants, hospitals &
universities
• 1940 – 1970 most was dumped into the ocean
• Today deposit into landfills
2. High-level radiation (Gives of large amount of
radiation)
• Fuel rods from nuclear power plants
• Half-time of Plutonium 239 is 24000 years
• No agreement about a safe method of storage
Radioactive WasteRadioactive Waste
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Radioactive WasteRadioactive Waste
1. Bury it deep underground.
• Problems: i.e. earthquake, groundwater…
2. Shoot it into space or into the sun.
• Problems: costs, accident would affect large area.
3. Bury it under the Antarctic ice sheet.
• Problems: long-term stability of ice is not known,
global warming
4. Most likely plan for the US
• Bury it into Yucca Mountain in desert of Nevada
• Cost of over $ 50 billion
• 160 miles from Las Vegas
• Transportation across the country via train & truck
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Yucca Mountain
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
Plutonium BreedingPlutonium Breeding
238U is the most plentiful isotope of
Uranium
Non-fissionable - useless as fuel
Reactors can be designed to convert 238U
into a fissionable isotope of plutonium,
239Pu
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
Conversion ofConversion of 238238U toU to 239239PuPu
Under
appropriate
operating
conditions, the
neutrons given
off by fission
reactions can
"breedbreed" more
fuel, from
otherwise non-
fissionable
isotopes, than
they consume
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
Reprocess Nuclear FuelReprocess Nuclear Fuel
During the operation of a nuclear
reactor the uranium runs out
Accumulating fission products
hinder the proper function of a
nuclear reactor
Fuel needs to be (partly) renewed
every year
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
Plutonium in Spent FuelPlutonium in Spent Fuel
Spent nuclear fuel contains many
newly formed plutonium atoms
Miss out on the opportunity to split
Plutonium in nuclear waste can be
separated from fission products and
uranium
Cleaned Plutonium can be used in a
different Nuclear Reactor
www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nuclear EnergyNuclear Energy
Concerns about the safety, cost,
and liability have slowed the
growth of the nuclear power
industry
Accidents at Chernobyl and
Three Mile Island showed that a
partial or complete meltdown is
possible
Nuclear Power Plants in U.S.Nuclear Power Plants in U.S.
cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-
%203.ppt
Three Mile IslandThree Mile Island
•March 29, 1979, a reactor near Harrisburg, PA lost
coolant water because of mechanical and human
errors and suffered a partial meltdown
•50,000 people evacuated & another 50,000 fled area
•Unknown amounts of radioactive materials released
•Partial cleanup & damages cost $1.2 billion
•Released radiation increased cancer rates.
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nonrenewable Energy-senatorlibya
ChernobylChernobyl
•April 26, 1986, reactor explosion (Ukraine) flung
radioactive debris into atmosphere
•Health ministry reported 3,576 deaths
•Green Peace estimates32,000 deaths;
•About 400,000 people were forced to leave their
homes
•~160,000 sq km (62,00 sq mi) contaminated
•> Half million people exposed to dangerous levels of
radioactivity
•Cost of incident > $358 billion
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Nonrenewable Energy-senatorlibya
Nonrenewable Energy-senatorlibya
Nuclear EnergyNuclear Energy
Nuclear plants must be decommissioned after
15-40 years
New reactor designs are still proposed
Experimental breeder nuclear fission reactors
have proven too costly to build and operate
Attempts to produce electricity by nuclear
fusion have been unsuccessful
Use of Nuclear EnergyUse of Nuclear Energy
• U.S. phasing out
• Some countries (France, Japan) investing
increasingly
• U.S. currently ~7% of energy nuclear
• No new U.S. power plants ordered since 1978
• 40% of 105 commercial nuclear power expected
to be retired by 2015 and all by 2030
• North Korea is getting new plants from the US
• France 78% energy nuclear
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
Phasing Out Nuclear PowerPhasing Out Nuclear Power
•Multi-billion-$$ construction costs
•High operation costs
•Frequent malfunctions
•False assurances and cover–ups
•Overproduction of energy in some areas
•Poor management
•Lack of public acceptance
www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
2) Energy2) EnergyEnergy &Energy &
Mineral resourcesMineral resources
garnero101.asu.edu/glg101/Lectures/L37.ppt

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Nonrenewable Energy -senatorlibya

  • 2. 1. Energy Resources1. Energy Resources 2. Oil 3. Natural Gas 4. Coal 5. Nuclear Energy www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 3. Energy SourcesEnergy Sources Modern society requires large quantities of energy that are generated from the earth’s natural resources. Primary Energy Resources: The fossil fuels(oil, gas, and coal), nuclear energy, falling water, geothermal, and solar energy. Secondary Energy Resources: Those sources which are derived from primary resources such as electricity, fuels from coal, (synthetic natural gas and synthetic gasoline), as well as alcohol fuels.
  • 4. ThermodynamicsThermodynamics The laws of thermodynamics tell us two things about converting heat energy from steam to work: 1)1) The conversion of heat to work cannot be 100 % efficient because a portion of the heat is wasted. 2)2) The efficiency of converting heat to work increases as the heat temperature increases.
  • 5. Energy Units and UseEnergy Units and Use Btu (British thermal unit) - amount of energy required to raise the temperature of 1 lb of water by 1 ºF. cal (calorie) - the amount of energy required to raise the temperature of 1 g of water by 1 ºC. Commonly, kilocalorie (kcal) is used. 1 Btu = 252 cal = 0.252 kcal 1 Btu = 1055 J (joule) = 1.055 kJ 1 cal = 4.184 J
  • 6. Two other units that are often seen are the horsepowerTwo other units that are often seen are the horsepower and the watt. These are not units of energy, but are unitsand the watt. These are not units of energy, but are units of power.of power. 1 watt (W) = 3.412 Btu / hour1 watt (W) = 3.412 Btu / hour 1 horsepower (hp) = 746 W1 horsepower (hp) = 746 W Watt-hour - Another unit of energy used only to describeWatt-hour - Another unit of energy used only to describe electrical energy. Usually we use kilowatt-hour (kW-h)electrical energy. Usually we use kilowatt-hour (kW-h) since it is larger.since it is larger. quad (Q) - used for describing very large quantities ofquad (Q) - used for describing very large quantities of energy. 1 Q = 10energy. 1 Q = 101515 BtuBtu Energy Units and UseEnergy Units and Use
  • 7. Evaluating Energy ResourcesEvaluating Energy Resources U.S. has 4.6% of world population; uses 24% of the world’s energy; 84% from nonrenewable fossil fuels (oil, coal, & natural gas); 7% from nuclear power; 9% from renewable sources (hydropower, geothermal, solar, biomass).
  • 8. Changes in U.S. Energy UseChanges in U.S. Energy Use www.bio.miami.edu/beck/esc101/Chapter14&15.pptwww.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 9. Energy resources removed from the earth’s crust include: oil, natural gas, coal, and uranium www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 10. Fossil FuelsFossil Fuels Fossil fuels originated from the decay of living organisms millions of years ago, and account for about 80% of the energy generated in the U.S. The fossil fuels used in energy generation are: Natural gas, which is 70 - 80% methane (CH4) Liquid hydrocarbons obtained from the distillation of petroleum Coal - a solid mixture of large molecules with a H/C ratio of about 1
  • 11. Problems with Fossil FuelsProblems with Fossil Fuels Fossil fuels are nonrenewable resources At projected consumption rates, natural gas and petroleum will be depleted before the end of the 21st century Impurities in fossil fuels are a major source of pollution Burning fossil fuels produce large amounts of CO2, which contributes to global warming
  • 12. 1. Energy Resources 2. Oil2. Oil 3. Natural Gas 4. Coal 5. Nuclear Energy www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 13. OilOil Deposits of crude oil often are trapped within the earth's crust and can be extracted by drilling a well Fossil fuel, produced by the decomposition of deeply buried organic matter from plants & animals Crude oil: complex liquid mixture of hydrocarbons, with small amounts of S, O, N impurities How Oil Drilling Works by Craig C. Freudenrich, Ph.D.
  • 14. Sources of OilSources of Oil •Organization of Petroleum Exporting Countries (OPEC) -- 13 countries have 67% world reserves: • Algeria, Ecuador, Gabon, Indonesia, Iran, Iraq, Kuwait, Libya, Nigeria, Qatar, Saudi Arabia, United Arab Emirates, & Venezuela •Other important producers: Alaska, Siberia, & Mexico. www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 16. Oil in U.S.Oil in U.S. •2.3% of world reserves •uses nearly 30% of world reserves; •65% for transportation; •increasing dependence on imports. www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 18. Low oil prices have stimulated economic growth, they have discouraged / prevented improvements in energy efficiency and alternative technologies favoring renewable resources.
  • 19. • Burning any fossil fuel releases carbon dioxide into the atmosphere and thus promotes global warming. • Comparison of CO2 emitted by fossil fuels and nuclear power. www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 21. OilOil Crude oil is transported to a refinery where distillation produces petrochemicals How Oil Refining Works by Craig C. Freudenrich, Ph.D.
  • 25. 1. Energy Resources 2. Oil 3. Natural Gas3. Natural Gas 4. Coal 5. Nuclear Energy www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 26. Natural Gas - Fossil FuelNatural Gas - Fossil Fuel • Mixture •50–90% Methane (CH4) •Ethane (C2H6) •Propane (C3H8) •Butane (C4H10) •Hydrogen sulfide (H2S) www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 27. Sources of Natural GasSources of Natural Gas •Russia & Kazakhstan - almost 40% of world's supply. •Iran (15%), Qatar (5%), Saudi Arabia (4%), Algeria (4%), United States (3%), Nigeria (3%), Venezuela (3%); •90–95% of natural gas in U.S. domestic (~411,000 km = 255,000 miles of pipeline). www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 30. Natural GasNatural Gas Experts predict increased use of natural gas during this century
  • 32. Natural GasNatural Gas When a natural gas field is tapped, propane and butane are liquefied and removed as liquefied petroleum gas (LPG) The rest of the gas (mostly methane) is dried, cleaned, and pumped into pressurized pipelines for distribution Liquefied natural gas (LNG) can be shipped in refrigerated tanker ships
  • 34. 1. Energy Resources 2. Oil 3. Natural Gas 4. Coal4. Coal 5. Nuclear Energy www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 35. Coal: Supply and DemandCoal: Supply and Demand Coal exists in many forms therefore a chemical formula cannot be written for it. Coalification: After plants died they underwent chemical decay to form a product known as peat Over many years, thick peat layers formed. Peat is converted to coal by geological events such as land subsidence which subject the peat to great pressures and temperatures.
  • 38. Ranks of CoalRanks of Coal Lignite: A brownish-black coal of low quality (i.e., low heat content per unit) with high inherent moisture and volatile matter. Energy content is lower 4000 BTU/lb. Subbituminous: Black lignite, is dull black and generally contains 20 to 30 percent moisture Energy content is 8,300 BTU/lb. Bituminous: most common coal is dense and black (often with well-defined bands of bright and dull material). Its moisture content usually is less than 20 percent. Energy content about 10,500 Btu / lb. Anthracite :A hard, black lustrous coal, often referred to as hard coal, containing a high percentage of fixed carbon and a low percentage of volatile matter. Energy content of about 14,000 Btu/lb. www.uvawise.edu/philosophy/Hist%20295/ Powerpoint%5CCoal.ppt
  • 41. Main Coal DepositsMain Coal Deposits BituminousBituminous AnthraciteAnthracite SubbituminousSubbituminous LigniteLignite
  • 57. Advantages and DisadvantagesAdvantages and Disadvantages Pros •Most abundant fossil fuel •Major U.S. reserves •300 yrs. at current consumption rates •High net energy yield Cons •Dirtiest fuel, highest carbon dioxide •Major environmental degradation •Major threat to health © Brooks/Cole Publishing Company / ITP www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 58. Sulfur in CoalSulfur in Coal When coal is burned, sulfur is released primarily as sulfur dioxide (SO2 - serious pollutant) Coal Cleaning - Methods of removing sulfur from coal include cleaning, solvent refining, gasification, and liquefaction Scrubbers are used to trap SO2 when coal is burned Two chief forms of sulfur is inorganic (FeS2 or CaSO4) and organic (Sulfur bound to Carbon)
  • 59. CoalCoal Coal gasification → Synthetic natural gas (SNG) Coal liquefaction → Liquid fuels Disadvantage Costly High environmental impact
  • 60. 1. Energy Resources 2. Oil 3. Natural Gas 4. Coal 5. Nuclear Energy5. Nuclear Energy www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 61. Nuclear EnergyNuclear Energy In a conventional nuclear power plant a controlled nuclear fission chain reaction heats water produce high-pressure steam that turns turbines generates electricity.
  • 62. Nuclear EnergyNuclear Energy Controlled Fission Chain Reaction neutrons split the nuclei of atoms such as of Uranium or Plutonium release energy (heat) www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 63. Controlled Nuclear Fission ReactionControlled Nuclear Fission Reaction cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-%203.ppt
  • 65. • Radioactive decay continues until the the original isotope is changed into a stable isotope that is not radioactive • Radioactivity: Nuclear changes in which unstable (radioactive) isotopes emit particles & energy RadioactivityRadioactivity www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 66. • Types • Alpha particles consist of 2 protons and 2 neutrons, and therefore are positively charged • Beta particles are negatively charged (electrons) • Gamma rays have no mass or charge, but are a form of electromagnetic radiation (similar to X-rays) • Sources of natural radiation • Soil • Rocks • Air • Water • Cosmic rays RadioactivityRadioactivity www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 68. The time needed for one-half of the nuclei in a radioisotope to decay and emit their radiation to form a different isotope Half-time emitted Uranium 235 710 million yrs alpha, gamma Plutonium 239 24.000 yrs alpha, gamma During operation, nuclear power plants produce radioactive wastes, including some that remain dangerous for tens of thousands Half-LifeHalf-Life www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 69. Diagram of Radioactive Decay cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20-%203.ppt
  • 70. • Genetic damages: from mutations that alter genes • Genetic defects can become apparent in the next generation • Somatic damages: to tissue, such as burns, miscarriages & cancers Effects of RadiationEffects of Radiation www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 72. 1. Low-level radiation (Gives of low amount of radiation) • Sources: nuclear power plants, hospitals & universities • 1940 – 1970 most was dumped into the ocean • Today deposit into landfills 2. High-level radiation (Gives of large amount of radiation) • Fuel rods from nuclear power plants • Half-time of Plutonium 239 is 24000 years • No agreement about a safe method of storage Radioactive WasteRadioactive Waste www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 73. Radioactive WasteRadioactive Waste 1. Bury it deep underground. • Problems: i.e. earthquake, groundwater… 2. Shoot it into space or into the sun. • Problems: costs, accident would affect large area. 3. Bury it under the Antarctic ice sheet. • Problems: long-term stability of ice is not known, global warming 4. Most likely plan for the US • Bury it into Yucca Mountain in desert of Nevada • Cost of over $ 50 billion • 160 miles from Las Vegas • Transportation across the country via train & truck www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 75. Plutonium BreedingPlutonium Breeding 238U is the most plentiful isotope of Uranium Non-fissionable - useless as fuel Reactors can be designed to convert 238U into a fissionable isotope of plutonium, 239Pu www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
  • 76. Conversion ofConversion of 238238U toU to 239239PuPu Under appropriate operating conditions, the neutrons given off by fission reactions can "breedbreed" more fuel, from otherwise non- fissionable isotopes, than they consume www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
  • 77. Reprocess Nuclear FuelReprocess Nuclear Fuel During the operation of a nuclear reactor the uranium runs out Accumulating fission products hinder the proper function of a nuclear reactor Fuel needs to be (partly) renewed every year www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
  • 78. Plutonium in Spent FuelPlutonium in Spent Fuel Spent nuclear fuel contains many newly formed plutonium atoms Miss out on the opportunity to split Plutonium in nuclear waste can be separated from fission products and uranium Cleaned Plutonium can be used in a different Nuclear Reactor www.geology.fau.edu/course_info/fall02/ EVR3019/Nuclear_Waste.ppt
  • 80. Nuclear EnergyNuclear Energy Concerns about the safety, cost, and liability have slowed the growth of the nuclear power industry Accidents at Chernobyl and Three Mile Island showed that a partial or complete meltdown is possible
  • 81. Nuclear Power Plants in U.S.Nuclear Power Plants in U.S. cstl-cst.semo.edu/bornstein/BS105/ Energy%20Use%20- %203.ppt
  • 82. Three Mile IslandThree Mile Island •March 29, 1979, a reactor near Harrisburg, PA lost coolant water because of mechanical and human errors and suffered a partial meltdown •50,000 people evacuated & another 50,000 fled area •Unknown amounts of radioactive materials released •Partial cleanup & damages cost $1.2 billion •Released radiation increased cancer rates. www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 84. ChernobylChernobyl •April 26, 1986, reactor explosion (Ukraine) flung radioactive debris into atmosphere •Health ministry reported 3,576 deaths •Green Peace estimates32,000 deaths; •About 400,000 people were forced to leave their homes •~160,000 sq km (62,00 sq mi) contaminated •> Half million people exposed to dangerous levels of radioactivity •Cost of incident > $358 billion www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 87. Nuclear EnergyNuclear Energy Nuclear plants must be decommissioned after 15-40 years New reactor designs are still proposed Experimental breeder nuclear fission reactors have proven too costly to build and operate Attempts to produce electricity by nuclear fusion have been unsuccessful
  • 88. Use of Nuclear EnergyUse of Nuclear Energy • U.S. phasing out • Some countries (France, Japan) investing increasingly • U.S. currently ~7% of energy nuclear • No new U.S. power plants ordered since 1978 • 40% of 105 commercial nuclear power expected to be retired by 2015 and all by 2030 • North Korea is getting new plants from the US • France 78% energy nuclear www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 89. Phasing Out Nuclear PowerPhasing Out Nuclear Power •Multi-billion-$$ construction costs •High operation costs •Frequent malfunctions •False assurances and cover–ups •Overproduction of energy in some areas •Poor management •Lack of public acceptance www.bio.miami.edu/beck/esc101/Chapter14&15.ppt
  • 90. 2) Energy2) EnergyEnergy &Energy & Mineral resourcesMineral resources garnero101.asu.edu/glg101/Lectures/L37.ppt

Notes de l'éditeur

  1. Source: http://www.ccnr.org/breeding_ana.html
  2. Source: http://www.antenna.nl/nvmp/pluto3.htm
  3. Source: http://www.antenna.nl/nvmp/pluto3.htm