introduction to nuclear power kenneth m. klemow, ph.d. for bio / ees 105 at wilkes university
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Introduction to Nuclear Introduction to Nuclear PowerPower
Kenneth M. Klemow, Ph.D.For BIO / EES 105 at Wilkes University
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What is nuclear power?What is nuclear power?Ability to harness energy from
atomic nuclei for consumptive uses◦Mostly electrical generation
Two kinds of nuclear energy◦Fission◦Fusion
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Nuclear fissionNuclear fissionHeavy atoms split, producing
smaller particles, electromagnetic radiation, and energy.
Most common form of nuclear fission involves splitting of certain forms of Uranium
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UraniumUraniumActinide metal with atomic number of
92.◦Thus 92 nuclei in nucleus
Various isotopes (based on # neutrons)◦U-233: 141 neutrons◦U-234: 142 neutrons◦U-235: 143 neutrons◦U-236: 144 neutrons◦U-237: 145 neutrons◦U-238: 146 neutrons
Used in nuclear power
Most common in nature
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Uranium rockUranium rock
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Fission of U-235Fission of U-235
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Reaction yields heatReaction yields heatTransferred to fluid surrounding
coresFluid heats up, forming steamSteam drives turbines, creating
electricity
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Uranium needs to be Uranium needs to be enrichedenrichedMost uranium in
form of U-238U-235 concentration
increasedEnrichment typically
involves removal of other isotopes
Commonly done by centrifugation, though highly secret.
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Nuclear cycleNuclear cycle
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Nuclear reactor overviewNuclear reactor overview
http://www.bbc.co.uk/
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Nuclear fuel in form of Nuclear fuel in form of rodsrods
http://coto2.wordpress.com
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NucleaNuclear r reactorreactor
http://www.bbc.co.uk/
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HistoryHistoryBasis in 1930s
◦Atomic nuclei contain vast energy1940s
◦Research on nuclear energy wrapped into Manhattan Project – atomic bomb
Early 1950s◦US, Canada, USSR began work on
generating electricity via nuclear energy
◦USSR builds nuclear reactor to feed into power grid.
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History IIHistory IILate 1950s
◦Nuclear plants constructed in Pennsylvania and Virginia, Idaho, and USSR
1960-1980◦Nuclear capacity increased greatly in US,
Europe, USSR.1980s and after
◦Nuclear construction slowed due to rising anti-nuclear sentiment, costs involved in meeting more stringent standards
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Worldwide nuclear powerWorldwide nuclear power
http://www.maximizingprogress.org/2008/01/world-energy-activity.html
Worldwide: 443 reactors in 32 countries (<25 under construction)
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Nuclear production - Nuclear production - WorldwideWorldwide
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Top nuclear countriesTop nuclear countries
http://utopianist.com
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Nuclear power in USNuclear power in US
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Nuclear power plants in USNuclear power plants in US
http://abhsscience.wikispaces.com/A+Block+-+Uranium
103 reactors in 31 statesNo new construction since 1974Pa has the 2nd largest capacityIllinois is 1st
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Trend of nuclear Trend of nuclear production production
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Risks associated with nuclear Risks associated with nuclear powerpowerMainly due to radiation releases –
human health◦Small releases during routine
operation◦Accidents◦Waste disposal
Thermal pollution
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Radiation risks - generalRadiation risks - generalRadiation can cause cancer (1%
of all causes)Radiation all around us
◦15,000 “hits” / second◦Chance of any one hit causing cancer:
1/30,000,000,000,000,000
http://www.who.int/ionizing_radiation/env/en/
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Increased risk by nuclear Increased risk by nuclear powerpowerRepresents 0.2% of increased
exposureThus 0.002% increased cancer
rate◦Reduces life expectancy by one hour◦Risks from other fossil fuel sources:
3-40 days
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AccidentsAccidentsMain concern of accident: damage to
reactor leading to “meltdown”Nuclear plants built to reduce risk of
accidents◦ Reactor shielded by steel and concrete
Predicted loss of life by probability analysis◦ Chance of meltdown estimated to be 1/20,000
years of operation◦ Loss of life in 1/3 accidents◦ Average # deaths 400 / meltdown
Compare to coal burning◦ 10,000 deaths / year◦ Thus would need 25 meltdowns / year to equal
risk from coal
Cohen, B. http://www.physics.isu.edu/radinf/np-risk.htm
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Three major accidents in Three major accidents in pastpast
Chernobyl – Ukraine•April 1986•>350,000 evacuated•64 died•Toll could reach 4000
Fukushima - Japan•March 2011•>300,000 evacuated•No deaths•Toll could reach 130
Three Mile Island - PA•March 1979•>140,000 evacuated•No deaths•No incidence of cancer
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Radioactive wasteRadioactive wasteSpent rods converted into rock-like
material and buried deep undergroundOther material buried into soilsSome U-235 can be recycled
https://sites.google.com/site/nuclearenergyinjapan/home/possible-solutions
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A 1000 MW(e) Nuclear Plant would A 1000 MW(e) Nuclear Plant would have the same effect as:have the same effect as:
Land: Disturbed Land 100 MW (e) coal
Land: Overburden moved
95 MW(e) coal
Fossil fuel used: 45 MW(e) coal
Effluents: SOx, NOx, Hydrocarbons, CO
45 MW (e) coal
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Eventual # of deaths caused by the wastes Eventual # of deaths caused by the wastes from 1000 MWe-Y electrical power from 1000 MWe-Y electrical power generationgeneration
Nuclear High level wastes 0.018
Low level wastes 0.0004
Routine emissions 0.3
Coal Air pollution 75
Radon emission 30
Chemical cacrcinogens
70
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Loss of life expectancy (LLE) due Loss of life expectancy (LLE) due to various risks in the U.S.to various risks in the U.S.
ACTIVITY LLE (Days)
Living in poverty 3500
Smoking 2300
Unmarried 2000
Coal Miner 1100
30 lbs overweight 900
Small car vs. midsize 60
Living very near a NPP 0.4
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Nuclear energy - Nuclear energy - advantagesadvantagesVery high energy densityNot a fossil fuel – no greenhouse
gas emissionsReliable
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Nuclear energy - Nuclear energy - disadvantagesdisadvantagesConcerns over radiation in event
of accidentsWaste disposal an issueLong lead time for plant
constructionHabitat fragmentation where
uranium mined