liquid fuel nuclear reactors
DESCRIPTION
A tutorial history of the development of liquid fuel nuclear reactors -- aqueous, metal, and molten salt, which has the potential to provide safe, carbon free, affordable energy that can address global warming and foster prosperous lifestyles in the developing nations that include population stabilizqtion.TRANSCRIPT
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Liquid Fuel Nuclear ReactorsMolten salt coolants
with dissolved
uranium and
thorium fluorides
promise reactors
that can generate
electric
power cheaper than
from coal.Robert Hargraves and Ralph Moir March 29, 2010
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1934: Hungarian physicist Leó Szilárd filed a patent for chain reaction fission.
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Enrico Fermi sketched a lattice of graphite and uranium oxide.
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Fermi's 1942 Chicago pile illustrated criticality.
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Fermi's 1944 first fluid reactor measured U-235 critical mass.
uranyl sulfate in water
all the world's U-235 !
beryllium oxide neutron reflector
http://www.fas.org/sgp/othergov/doe/lanl/pubs/00416628.pdf
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Weinberg's PWR was heterogeneous.
uranium fuel rods
moderating water
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The aqueous homogeneous reactor at Oak Ridge generated 140 kW in 1953.
Richard Engel adds 300 g of uranium in 500 ml of heavy water to generate electric power for two months.
National Geographic
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LAMPRE
Los Alamos Molten Plutonium Reactor Experiment
1961-1963
molten iron and plutonium fuel
liquid sodium cooled
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J J Went developed a 1 MW suspension test reactor in 1974 at KEMA, Netherlands.
A homogeneous slurry of uranium and thorium particles was suspended in heavy water.
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Weinberg had proposed the PWR to Rickover's team for naval propulsion.
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Rickover + Shippingport 100 US PWRs.
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Radiation, fission products, and heat damage solid fuel.
Zirconium cladding must contain fuel for centuries.
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trace % minor actinides
Np, Am, Cm, …
Enriched uranium fuel
96.5% U-238 3.5% U-235
Spent fuel contains fission products, fissile fuel, and fertile uranium.
3% fission products
1% plutonium
0.50% Pu-239 FUEL0.25% Pu-240 future FUEL0.15% Pu-241 FUEL
96% uranium
0.83% U-235 FUEL 0.40% U-236 future FUEL94.77% U-238 future FUEL
WASTE
Power reactor
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intemporary or permanent
storage
France reprocesses some spent fuel.
http://spectrum.ieee.org/print/4891
1450 Tfresh fuel
(for 59 reactors) 100 TMOX spent fuel
500 T UOx spent fuel
850 TUOx spent fuel
Reprocessing Plant
separates
U, Puradioactive wastes
300 Tre-
enriched in RussiaU
505 T U stockpiled
37 T radioactive waste vitrified
100 TMOX
92 Tdepleted U
8 TPu
1050 T enriched UOx
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Actinides fission or absorb neutrons to form new actinides, which ....
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LMFBR
LFTR
PWR
Two breeding technologies provide 102 X more energy than 0.7% U-235.
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Fission product wastes
Oxides to metals
Future fast reactors
Current thermal reactors
Fissionable U, Np, Pu, Am, Cm, … kept together
ElectrorefiningNew fuel rod casting
Metals
+ -
Cadmium etc
All five US LMFBRs were shut down, as was the Integral Fast Reactor project.
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In LFTR the liquid Th-232 blanket becomes the U-233 liquid fuel.
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Weinberg and Oak Ridge developed the first molten salt nuclear reactor in 1954.
860 C
Red hot!
100 hours
2.5 MW
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235UF4 fuel in molten NaF and ZrF4 salt flowed through beryllium moderators.
intrinsic reactivity stability
automatically adjusted power without control rods
corrosion resistant
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1.4 m diameter
NaK metal would transfer 200 MW thermal power to jet engines.
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The Molten Salt Reactor Experiment ran until 1965.
Salt flowed through channels in this graphite core.
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http://www.ornl.gov/~webworks/cppr/y2006/pres/124659.pdf
The Molten Salt Reactor Experiment succeeded.
HastelloyXe off-gasGraphite
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http://www.ornl.gov/~webworks/cppr/y2006/pres/124659.pdf
The Molten Salt Reactor Experiment succeeded.
HastelloyXe off-gasGraphitePumpsFluorination
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http://www.ornl.gov/~webworks/cppr/y2006/pres/124659.pdf
The Molten Salt Reactor Experiment succeeded.
HastelloyXe off-gasGraphitePumpsFluorinationDump tanksU-23317,655 hours
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Weinberg had envisioned LFTR ever since the 1943 Wigner aqueous design.
"humankind's whole future depended upon this"
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Global warming, overpopulation, and resources competition are increasing.
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Dennis Meadows’ Limits to Growth showed effects of finite resources.
http://www.aspoitalia.net/images/stories/aspo5presentations/Meadows_ASPO5.pdf
Resources
Population
Food
PollutionIndustrial Output
20101972
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Energy cheaper than from coal is important.
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Energy cheaper than from coal is important.
Copenhagen failed.
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Energy cheaper than from coal is important.
Copenhagen failed.
Coal costs $40 a ton –$0.02 / kWh just for the coal.
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Population is stable in developed nations.
http://caliban.sourceoecd.org/vl=1260748/cl=17/nw=1/rpsv/factbook/010101.htm
US
World
OECD
6.7 billion 2008
http://www.oecd.org/dataoecd/13/38/16587241.pdf
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Prosperity stabilizes population.
https://www.cia.gov/library/publications/the-world-factbook/docs/rankorderguide.html
GDPpercapita
Children per woman
82 nations with populations over 10 million.
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Prosperity stabilizes population.
https://www.cia.gov/library/publications/the-world-factbook/docs/rankorderguide.html
GDPpercapita
Children per woman
82 nations with populations over 10 million.
Stable replacement rate
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Prosperity stabilizes population.
https://www.cia.gov/library/publications/the-world-factbook/docs/rankorderguide.html
GDPpercapita
Children per woman
82 nations with populations over 10 million.
Stable replacement rate
Prosperity
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Prosperity depends on energy.
https://www.cia.gov/library/publications/the-world-factbook/rankorder/2042rank.html
GDPpercapita
Annual kWh per capita
Nations with populations over 10 million.
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Prosperity
Prosperity depends on energy.
https://www.cia.gov/library/publications/the-world-factbook/rankorder/2042rank.html
GDPpercapita
Annual kWh per capita
Nations with populations over 10 million.
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LFTR can make electricity cheaper than from coal.
100 MW LFTR $ Cost $ per mo, 40 yrs, 8%
$ per KWH @ 90%
Construction 200,000,000 1,390,600 0.0214100 kg U startup 1,000,000 6,953 0.000108Thorium fuel 30,000/yr 2500 0.00000386Decomm (½ const) 100,000,000 960 0.00000148Operations 1,000,000/yr 83,333 0.00128TOTAL 0.0228
http://www.bloomberg.com/apps/news?pid=20601080&refer=asia&sid=aV_2FPlVxISE
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The median of five cost estimates for molten salt reactors is < $2/watt.
Estimate Year $/watt 2009 $/watt
Sargent & Lundy 1962 0.650 4.64
Sargent & Lundy ORNL TM-1060
1965 0.148 1.01
ORNL-3996 1966 0.243 1.62
Engel et al, ORNL TM7207 1978 0.653 2.16
Moir 2000 1.580 1.98
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LFTR needs no costly 160-atmosphere pressure vessel and containment dome.
GE-Hitachi ABWR39 months1,356 MW36 x 29 meter containment1,000 ton crawler cranes
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The Westinghouse Toshiba AP-1000 is massively larger than a 100 MW LFTR.
AP-1000Samen, ChinaJan 2010
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The Westinghouse AP-1000 is massively larger than LFTR.
1.4 m
1.4 m
AP-1000Samen, ChinaJan 2010
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LFTR relies on simple, intrinsic safety systems, not costly defense in depth.
Stable reactivity.
Fuel already melted.
Atmospheric pressure.
Salt from rupture or leak will solidify.
Melting freeze plug dumps salt to tank.
Freeze plug
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High thermal energy efficiencies keep LFTR compact and low cost.
Molten salt is a high thermal capacity heat exchange fluid, better than water, sodium, or helium.
Carbon composite heat exchangers presage future higher temperatures.
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Closed cycle Brayton turbine raises power conversion efficiency to 45+%.
Halving rejected heat enables air cooling.
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Boeing makes one $200 million aircraft per day.
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The learning curve experience runs counter to economy of scale.
10% learning ratio
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By-product U-232’s decay chain emits gamma rays hazardous to bomb builders.
nucleons Th 90 Pa 91 U 92 Np 93
235
234
233
232
231
230 neutron absorption
beta decay
neutron abs/decay (n,2n)
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Uranium separator
FertileTh-232 blanket
FissileU-233 core
New U-233 fuel
New Th-232
nn
Uranium from a commercial LFTR will not be used for weapons.
Breeds only as muchU-233 as it consumes.
Removing any will stop the LFTR.
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Uranium separator
FertileTh-232 blanket
FissileU-233 core
New U-233 fuel
New Th-232
nn
Uranium from a commercial LFTR will not be used for weapons.
Breeds only as muchU-233 as it consumes.
Removing any will stop the LFTR.
U-232 contamination will be 0.13%.
A 5 kg sphere of it radiates 4,200 mrem/hr at 1 meter.
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Uranium separator
FertileTh-232 blanket
FissileU-233 core
New U-233 fuel
New Th-232
nn
Uranium from a commercial LFTR will not be used for weapons.
Breeds only as muchU-233 as it consumes.
Removing any will stop the LFTR.
U-232 contamination will be 0.13%.
A 5 kg sphere of it radiates 4,200 mrem/hr at 1 meter.
After 72 hours of exposure a weapons worker will likely die.
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Uranium separator
FertileTh-232 blanket
FissileU-233 core
New U-233 fuel
New Th-232
nn
Uranium from a commercial LFTR will not be used for weapons.
Breeds only as muchU-233 as it consumes.
Removing any will stop the LFTR.
U-232 contamination will be 0.13%.
A 5 kg sphere of it radiates 4,200 mrem/hr at 1 meter.
After 72 hours of exposure a weapons worker will likely die.
India, Pakistan, and North Korea demonstrated far less technically challenging and costly paths.
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LFTR produces much less long lived radiotoxic actinide waste.
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Moir and Teller proposed LFTR R&D in 2005
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US R&D in nuclear fission had dropped – to zero for breeders.
IAEA, via Inter. Panel on Fissile Materials Feb 2010
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A prototype LFTR could be operational in 5 years.
2010 2015 2020
Develop Scale up Produce
$ 1 B $ 5 B $ 70 B per year industry
Commercialize
One LFTR per day
Export
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A prototype LFTR could be operational in 5 years.
2010 2015 2020
Develop Scale up Produce
$ 1 B $ 5 B $ 70 B per year industry
Commercialize
One LFTR per day
Export
Rickover's Shippingport was built in 32 months.Weinberg-engineered Oak Ridge X-10 was built in 9 months.
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Aim High! Zero emissions worldwide.
http://www.eia.doe.gov/pub/international/iealf/table63.xls
Install one 100 MW LFTR each day, worldwide, to replace all coal power.
2020 2058
10 billion
tons CO2
Annual emissions from coal power plants
1400 GWY
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Aim High! Synthesize fuel and fertilizer.
http://wwwtest.iri.tudelft.nl/~klooster/reports/hydro_slides_2003.pdf
Dissociate water at 900oC to make hydrogen: sulfur-iodine process.
CO2 + 3 H2 CH3OH + H2O
Methanol for gasoline
Dimethyl ether for diesel
Ammonia for fertilizer
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Aim High! Check population growth, pollution, and resources use.
Resources
Population
Food
Pollution
Industrial Output
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Liquid Fuel Nuclear Reactors will be published this summer.