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Molten Salt Reactors: Manufacturing a Manufacturing Revival An  Economic  Recovery  Strategy  for  the  United  States  

Authored  By:  Jon  Paul  Morrow    eGeneration  Fellow    

 

TABLE OF CONTENTS

Energy  :  Important  to  our  Economy  ...........................................................................................................................  1  

Time  to  Act  .............................................................................................................................................................................  1  

Molten  Salt  Reactor  Technology:  The  Best  of  All  Worlds  ..................................................................................  2  

Why  Not  Now?  ......................................................................................................................................................................  2  

Molten  Salt  Reactors:  Good  for  Absolutely  Everything!  .....................................................................................  4  

 

Copyright  ©  2015  by  eGeneration  Foundation  

 

    Manufacturing  a  Manufacturing  Revival    |    1    

ENERGY : IMPORTANT TO OUR ECONOMY

As  a  nation,  we  have  failed  to  address  many  of  the  fundamental  weaknesses  that  have  contributed  to  the  largest  budget  and  trade  deficits  in  world  history.    

We  have  failed  to  hold  our  trading  partners  accountable  to  the  same  environmental  regulations  and  standards  for  energy  generation  to  which  we  hold  our  own  industries,  thereby  giving  our  foreign  trading  partners  an  advantage  when  competing  in  our  own  domestic  markets.  We  have  instituted  a  broad  range  of  unnecessary  environmental  regulations,  policies,  and  mandates  that  have  increased  compliance  costs  for  industry,  increased  core  development  costs  in  energy  production,  and  produced  negative  effects  for  our  environment  and  economy,  while  increasing  uncertainty  for  would-­‐be  investors  in  the  United  States  economy.    

We  have  chosen  not  to  develop  our  most  economically  impactful  energy  reserves,  and  have  continued  our  reliance  on  foreign  reserves.  We  have  continued  our  reliance  on  foreign  sources  of  energy,  missing  the  opportunity  to  develop  and  commercialize  domestic  energy  resources.  This  has  put  our  nation’s  safety  and  security  at  risk  by  forcing  trade  with  unstable  nations  and  those  that  sponsor  terrorism.  We  have  also  failed  to  make  sufficient  long-­‐term  investments  in  our  nation’s  energy  infrastructure,  while  our  nation’s  electrical  grid  and  transmission  systems  have  aged  and  have,  in  some  respects,  become  antiquated  and  at  risk  while  our  national  security  and  international  competitiveness  have  eroded  due  to  failing  and  uncompetitive  infrastructure  induced  costs.  

 

TIME TO ACT

Postponing  action  until  more  damage  to  our  economy  and  competitiveness  has  occurred  is  not  an  acceptable  approach.  The  time  has  come  for  U.S.  policymakers  and  industry  leaders  to  take  meaningful  action  to  institute  a  pro-­‐manufacturing  agenda  that  supports  the  long-­‐term  realistic  economic  viability  of  domestic  energy  production.  Our  nation  requires  an  adequate  domestic  supply  of  energy  to  maintain  our  economic  security,  to  contribute  to  our  national  defense,  and  to  provide  sufficient  domestic  resources  to  help  ensure  the  recovery  of  U.S.  manufacturing.

 

 

 

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MOLTEN SALT REACTOR TECHNOLOGY: THE BEST OF ALL WORLDS

Normally,  clean  and  carbon-­‐free  energy  is  associated  with  unreliability,  intermittency,  and  high  cost.  

Molten  Salt  Reactor  (MSR)  technology  is  a  technology  that  holds  much  promise  in  redefining  clean  and  carbon-­‐free  energy  as  a  very  affordable,  reliable,  and  safe  energy  resource.  MSR  technology  originated  in  America  and  has  spent  more  than  50  years  in  the  research  and  development  phase  with  many  other  countries  maintaining  active  MSR  programs  to  this  day.  Given  a  conducive  national  regulatory  environment,  the  commercialization  of  this  technology  could  occur  with  3-­‐5  years.  

Molten  Salt  Reactors  work  on  the  principles  of  next  generation  fission  technologies  to  produce  a  very  small  reactor,  a  reactor  that  can  produce  baseload  power  with  load  following  capabilities,  a  reactor  that  can  produce  electricity  and  heat  cheaper  than  the  cheapest  fossil  fuels  (coal),  a  reactor  that  is  inherently  safe  (cannot  melt  down)  and  produces  no  long-­‐lived  nuclear  waste  (waste  that  needs  to  be  sequestered  from  the  environment  for  more  than  300  years,)  a  reactor  that  is  very  proliferation  resistant,  and  a  reactor  that  can  be  adapted  very  economically  and  safely  for  many  manufacturing  and  production  processes.  Like  traditional  nuclear  reactors,  MSRs  produce  no  air  pollution  and  create  no  greenhouse  gas  emissions.  

WHY NOT NOW?

If  Molten  Salt  Reactor  technology  is  so  great,  why  have  we  not  allowed  the  commercialization  in  the  United  States?  Why  not  now?  

MSRs  were  rapidly  developed  after  the  Manhattan  Project  during  the  1950’s,  1960’s,  and  1970’s.  The  technology  was  very  close  to  commercialization  leading  up  to  the  Nixon  administration,  which  ended  the  American  Molten  Salt  Reactor  program  due  to  budgetary  constraints  and  focus  upon  the  development  of  the  Liquid  Metal  Fast  Breeder  Reactor.  

During  the  1970’s  the  Three  Mile  Island  accident  occurred,  and  with  the  help  of  radical  environmentalist  and  sensationalist,  but  highly  scientifically  inaccurate  Hollywood  movies,  Americans  began  to  fear  nuclear  energy.  They  voiced  that  fear  through  their  pocketbooks,  and  industry  began  to  adapt  accordingly.    Meaningful  research,  development,  and  commercialization  were  essentially  put  on  hold  as  other  forms  of  energy  were  explored.  For  more  than  30  years,  no  new  nuclear  reactor  were  put  into  service  as  the  regulatory  environment  grew  to  be  cost  

 

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prohibitive  and  radical  environmentalists  mobilized  a  strategy  of  litigation  against  proposed  nuclear  reactors.  

Today’s  polling  data  demonstrates  that  more  than  two-­‐thirds  of  Americans  attitudes  have  warmed  toward  nuclear  energy,  and  in  spite  of  nuclear  energy  being  the  most  heavily  regulated  industry,  but  with  the  best  safety  record,  the  nuclear  energy  industry  has  found  a  way  to  make  a  profit  and  survive.  Next  generation  reactors,  such  as  Molten  Salt  Reactors,  are  less  complex,  safer,  and  much  cheaper  to  build  than  legacy  nuclear  reactors,  but  government  agencies  have  not  yet  drafted  rules  and  regulations  for  such  reactors,  nor  do  they  have  the  budget  to  do  so.  Absent  reactor  rules  and  regulations,  these  new  type  reactors  cannot  be  licensed,  sited,  or  built.    

Who  will  pay  the  cost  to  develop  the  regulatory  environment  for  new  type  reactors?    The  development  of  rules  and  regulations  can  cost  billions  of  dollars.  

The  expense  to  formulate  and  adopt  rules  and  regulations,  added  to  the  litigious  uncertainty  of  the  licensing  environment  for  nuclear  reactors,  creates  an  economic  environment  where  private  industry  is  unlikely  to  foot  the  bill  for  the  development  of  new  reactors  due  to  the  regulatory  risks  and  costs.    

Currently,  United  States  energy  policy  is  focused  on  the  development  of  renewable  energy  sources,  traditional  nuclear  reactors,  and  storage  and  sequestration  of  high-­‐level  nuclear  waste.    This  emphasis  is  misplaced.  

Consumers  of  electricity  generated  at  nuclear  energy  facilities  have  committed  more  than  $34  billion  since  1982  to  the  Nuclear  Waste  Fund  for  the  federal  program  that  was  supposed  to  have  begun  removing  used  fuel  from  commercial  nuclear  power  plant  sites  14  years  ago.    The  Department  of  Energy  continues  to  collect  more  than  $750  million  per  year  from  consumers,  and  the  fund  accrues  almost  $1  billion  in  investment  income  on  the  remaining  balance  of  over  $26  billion.    The  collection  of  Nuclear  Waste  Fund  fees  is  ongoing,  despite  the  fact  that  the  Department  of  Energy,  without  any  technical  basis  for  doing  so,  terminated  the  Yucca  Mountain  Nevada  repository  project  in  2010.  

Yet,  Molten  Salt  Reactor  technology  can  be  used  to  consume  98%  of  high-­‐level  traditional  nuclear  waste  (contaminated  unspent  nuclear  fuel),  while  producing  electricity  in  doing  so.  The  cost  to  commercialize  MSR  technology  is  conservatively  estimated  to  be  less  than  $5  billion,  less  than  $2  billion  to  develop  the  rules  and  regulations  for  MSRs,  and  potentially  another  $10  billion  for  a  facility  to  handle  and  process  the  nuclear  waste  into  a  form  that  can  be  used  by  MSR  technology.  Utilizing  $17  billion  from  the  nuclear  waste  fund  to  commercialize  a  technology  that  

 

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will  reduce  nuclear  stockpiles  by  98%  while  producing  pollution  free  electricity  makes  economic  sense  and  political  sense.  

So  why  have  legislators  not  embraced  such  a  development  policy  of  the  commercialization  of  MSRs  utilizing  the  nuclear  waste  fund?  Legislators  have  often  had  the  perception  that  the  public  is  fearful  of  nuclear  energy,  even  though  many  public  opinion  polls  and  surveys  show  widespread  support  and  popularity  of  nuclear  energy.  That  is  why  eGeneration  Foundation  seeks  to  educate  private  citizens  and  industry  and  policy  leaders  on  the  benefits  of  Molten  Salt  Reactor  technology.    Scientific,  fact-­‐based  education  can  calm  fears  and  help  people  see  the  true  benefits  afforded  by  the  use  of  this  technology.  

 

MOLTEN SALT REACTORS: GOOD FOR ABSOLUTELY EVERYTHING!

Numerous  studies  and  over  40  years  of  experience  with  Molten  Salt  Reactors  show  that  MSRs  can  conservatively  produce  electricity  at,  or  less  than,  $.02  per  kilowatt  hour.  This  $.02  per  kilowatt-­‐hour  cost  is  half  the  cost  of  electricity  production  in  China  or  India,  two  of  America’s  largest  competitors  in  the  world  marketplace.  Obviously,  this  difference  in  resource  costs  will  help  level  the  playing  field  for  American  manufacturers,  especially  those  that  are  high-­‐energy  users.  This  competitive  advantage  by  itself  could  spark  an  American  manufacturing  revival.  But  wait!  There  is  more!  

MSRs  are  high  temperature  reactors,  and  such  high  temperatures  generated  at  so  little  cost  have  tremendous  potential  to  convert  all  types  of  resources  into  usable  products  that  are  economically  attractive.  

Plasma  gasification  of  Municipal  Solid  Waste  (MSW)  creating  Synthetic  Natural  Gas  (SNG)  or  synthetic  gasoline  and/or  synthetic  diesel  fuel  can  have  the  benefit  of  reducing  landfill  costs  and  provide  energy  independence.    

Landfills  have  been  the  standard  answer  for  disposing  of  waste  for  many  years-­‐not  because  they  are  a  good  solution,  but  because  the  alternatives  were  not  viewed  as  being  economically  viable.  For  many  years,  no  one  understood  the  "true"  cost  of  operating  a  landfill.  Initially,  we  just  dumped  waste  in  open  pits  and  covered  them.  After  a  number  of  years,  we  learned  that  contaminants  in  the  waste  were  leaching  into  the  ground  water  and  contaminating  aquifers.  Landfill  gas  was  escaping  into  surrounding  neighborhoods  and  into  basements  of  homes.    

 

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  We  then  began  to  line  the  landfills  and  over  time  have  developed  fairly  sophisticated  liner  systems.  However,  even  the  best  liner  system  will  eventually  leak  and  cause  environmental  damage.  A  variety  of  programs  have  been  developed  to  reduce  the  amount  of  waste  going  into  landfills.  We  have  developed  recycling  programs,  composting,  anaerobic  digestion  and  a  variety  of  other  techniques  to  reduce  the  waste.  However,  we  are  still  dumping  most  of  our  waste  into  landfills  because  of  a  lack  of  viable  economic  alternatives.  Molten  Salt  Reactors  (MSRs),  however,  make  plasma  gasification  of  trash  very  economically  attractive.  

Because  MSRs  can  be  made  very  small  and  still  deliver  electricity  and  heat  at  an  exceptional  price  point,  many  industries  such  as  the  steel  and  aluminum  industry  may  choose  to  purchase  their  own  power  source  for  co-­‐location  to  ensure  delivery  and  reliability  of  electricity  and  process  heat.  

Such  a  small  power  source  has  other  applications  as  well  within  the  petroleum  industry.  Heavy  Oil  and  Unconventional  Oil  Reserves  need  a  tremendous  amount  of  heat  to  liberate  pumpable  usable  crude  oil  from  geologic  formations.  Small  MSRs  could  be  just  the  ticket  to  harvest  massive  U.S.  heavy  oil  reserves  on  Alaska’s  North  Slope  or  to  transform  the  world’s  largest  kerogen  (shale  oil)  formation  in  America’s  Southwest  (the  Green  River  Formation)  into  sweet  crude  oil.  

Additionally,  transforming  coal  into  liquid  transportation  fuel  or  into  synthetic  natural  gas  using  the  heat  from  a  Molten  Salt  Reactor  produces  ammonia  and  high  purity  carbon  dioxide  as  by-­‐products.  Ammonia  can  be  used  by  itself  to  produce  fertilizers  for  agricultural  industries.  Ammonia  mixed  with  carbon  dioxide  can  be  used  in  forward  osmosis  desalination  systems  to  produce  cheap,  clean,  drinking  water.  High  purity  carbon  dioxide  can  be  used  by  itself  for  enhance  oil  recovery  from  thousands  of  America’s  previously  played  out  oil  fields.  

Probably  the  most  interesting  humanitarian  aspect  of  Molten  Salt  Reactors  is  their  ability  to  produce  highly  valuable  medical  isotopes  as  a  by-­‐product  of  energy  production.  Molybdenum99  is  produced  in  large  quantities  in  an  MSR  and  is  used  in  about  320,000  medical  imaging  tests  in  the  United  States  per  week.  Currently,  there  is  no  major  domestic  U.S.  source  for  Molybdenum99.  Actinium225  is  a  highly  sought  after  isotope  that  potentially  holds  the  cure  for  cancer  and  HIV  AIDS.  

From  agricultural  production,  manufacturing  production,  fresh  water  production,  and  medical  applications,  Molten  Salt  Reactors  have  the  potential  to  affect  many  different  industry  segments  positively.  

 

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