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Nuclear 2 by RANA SAIFULLAH KHAN

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Rana Saif Khan
Rana Saif Khan

There are two main types of nuclear reactors: thermal (slow) reactors and fast reactors. Thermal reactors have a large, heavy core and use moderators like graphite or water to slow neutrons, making them easier to control. Fast reactors have a smaller, more compact size and can breed fuel. Nuclear fuel can be natural uranium, which contains the fissile U-235, or artificial fuel produced from fertile materials like U-238 or Th-232. Reactors are classified as burners, converters, or breeders depending on whether they only produce heat or can convert or breed more fuel. Breeder reactors are able to produce more fuel than they consume. Reactors require effective

IngénierieTechnologieBusiness
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CLASSIFICATION OF NUCLEAR REACTORS TYPES OF FISSION • SLOW REACTORS OR THERMAL REACTORS – REACTOR CORE IS LARGE AND HEAVIER – THEY HAVE LONG NEUTRON LIFE AND LOW POWER DENSITY SO CONTROL IS EASIER – LOW FUEL LOADING – IT IS IMPOSSIBLE TO BREED – LOW COOLING PROBLEMS • FAST REACTORS – FISSION CAUSED BY FAST NEUTRON BUT THEIR SPEED REDUCED BY MODERATOR – HIGH FISSION RATE AND HIGH BREEDING – SMALL IN SIZE AND COMPACT – EASIER TO SHIELD – HIGH POWER DENSITY ( KW/m3)RESULTS IN COOLING AND HT PROBLEMS
TYPES OF FUEL • NATURAL URANIUM – FISSIONABLE U 235 AND FERTILE U 238. SO PU 239 IS PRODUCED AND U 233 FROM THORIUM 232 ARE PRODUCED ARTIFICALLY FROM A FERTILE MATERIAL BY NEUTRON REACTION. FUEL CYCLES • BURNER REACTOR - ONLY HEAT IS PRODUCED WITHOUT CONVERSION • CONVERTOR REACTOR – MATERIAL CONVERTED BY PUTTING FERTILE MATERIAL IN CORE U 238 TO PU 239. • BREEDER REACTOR – PU 239 IS THE FUEL AND U 238 CONVERTED TO PU
Breeder reactor • r= no of fuel atoms formed/ no of original fuel atoms consumed in fission ; r<1 convertor if r > 1 then breeder ( 7 to 15 yrs to produce fuel for another reactor) • Breeder generated energy and also produces fuel than it consumes.
STATE OF FUEL • SOLID OR LIQUID- MOSTLY SOLID BUT MAY BE MIXED WITH URANIUM OXIDE TO FORM SLURRY IN WATER OR LIQUID METAL. SO ITS CALLED LIQUID METAL FUELED REACTOR( LMFR)-SGR – PERMITS HIGH TEMP, PRESSURIZATION SOLVED. • POSITION OF FERTILE AND FISSILE MATERIAL RELATIVE POSITION TO EACH OTHER IN REACTOR CORE.
CHOICE OF MODERATOR • TYPES OF MODERATOR ; GRAPHITE , NATURAL WATER AND HEAVY WATER . GRAPHITE HAS HIGHER ATOMIC WEIGHT THAN WATER SO THEY ARE BULKY. NATURAL WATER GIVES A SMALL AND COMPACT REACTOR. CORE COMPOSITION
METHOD OF COOLING • DIRECT COOLING AND INDIRECT COOLING • ORDINARY WATER IS USED WITH ENRICHED URANIUM AND HEAVY WATER WITH ORDINARY URANIUM DUE TO THEIR NEUTRON ABSORPTION CAPABILITY • LOW NEUTRON ABSORPTION
GAS COOLED REACTOR • GAS IS CIRCULATED THROUGH REACTOR CORE TO COOL THE REACTOR.AIR ,HE ,HYDROGEN OR CO2. • POOR HEAT TRANSFER OF GASES REQUIRE HIGH PUMPING POWER. • CORROSION PROBLEMS RESOLVED • POWER DENSITY IS LOW
WATER COOLED REACTOR • LIGHT WATER REACTOR- HAS GOOD THERMAL PROPERTIES, CHEAP COOLANT, BUT IT HAS CORROSION ISSUES AND DUE TO NEUTRON ABSORPTION MAY INTERRUPT CRITICALITY. • BWR-BOILING WATER REACTOR
• WATER CONVERTS TO STEM AND DIRECTLY IMPINGES ON TURBINE • STEAM LEAVING REACTOR MAY BE RADIOACTIVE AND PIPING AND STEAM TURBINE
PRESSURIZED WATER REACTOR • WATER IS PRESSURIZED TO PREVENT BULK BOILING AT 150 ATM. • HOT WATER FROM REACTOR FLOWS TO STEAM GENERATOR (HX)WHERE ITS HEAT IS TRANSFERRED TO FEED WATER TO GENERATE STEAM.
• STEAM IS PRODUCED AT 7.5 TO 8 Mpa AND 320 C. • PWR ARE STABLE. • TURBINE LOOP SEPARATE THAN PRIMARY SO LESS CHANCES OF RADIOACTIVE. • THE LIQUID SHOULD BE HIGHLY PRESSURIZED TO REMAIN LIQUID AT HIGH TEMP.SO HIGH COST PIPE
COOLANT • COOLANT PICKS UP HEAT AND KEEP FUEL ASSEMBLIES AT SAFE TEMP TO AVOID DESTRUCTION AND MELTING. • AIR,HELIUM,WATER,CO2,H2,NA ,K, • IT SHOULD HAVE REALISTIC FLUIDITY FOR HT. • LOW ABSORTION OF NEUTRON • IF COMPOUND,STABILITY FROM DISASSOCIATION • SPECIFIC HEAT ANG K SHOULD BE HIGH TO HT. • NON CORROSIVE • THERMAL STABILITY
NEW TRENDS • ORGANIC SUBSTANCE COOLED REACTORS ,OIL,PETROLEUM • CAN OPERTAE AT HIGH TEMP WITH MODERATE PRESSURE.SO LIGHTER EQUP,DEVICES ,PIPES( ORDINARY STEEL ) AND REDUCED COST. • LESS CORROSIVE THAN WATER • H2 CONTENTS MAKES THEM ACCEPTABLE AS MODERATORS • THESE DON’T BECOME RADIOACTIVE AS NEUTRON BOMBARDMENT. • DON’T FREEZE AT LOW TEMP SO GOOD FOR USE IN COLD REGIONS
FUEL CYCLE
GASES DIFFUSION
CENTRIFUGAL/ THERMAL DIFFUSION
ELECTROMAGNETIC DIFFUSION
Nuclear 2 by RANA SAIFULLAH KHAN

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Nuclear 2 by RANA SAIFULLAH KHAN

  • 1. CLASSIFICATION OF NUCLEAR REACTORS TYPES OF FISSION • SLOW REACTORS OR THERMAL REACTORS – REACTOR CORE IS LARGE AND HEAVIER – THEY HAVE LONG NEUTRON LIFE AND LOW POWER DENSITY SO CONTROL IS EASIER – LOW FUEL LOADING – IT IS IMPOSSIBLE TO BREED – LOW COOLING PROBLEMS • FAST REACTORS – FISSION CAUSED BY FAST NEUTRON BUT THEIR SPEED REDUCED BY MODERATOR – HIGH FISSION RATE AND HIGH BREEDING – SMALL IN SIZE AND COMPACT – EASIER TO SHIELD – HIGH POWER DENSITY ( KW/m3)RESULTS IN COOLING AND HT PROBLEMS
  • 2.
  • 3. TYPES OF FUEL • NATURAL URANIUM – FISSIONABLE U 235 AND FERTILE U 238. SO PU 239 IS PRODUCED AND U 233 FROM THORIUM 232 ARE PRODUCED ARTIFICALLY FROM A FERTILE MATERIAL BY NEUTRON REACTION. FUEL CYCLES • BURNER REACTOR - ONLY HEAT IS PRODUCED WITHOUT CONVERSION • CONVERTOR REACTOR – MATERIAL CONVERTED BY PUTTING FERTILE MATERIAL IN CORE U 238 TO PU 239. • BREEDER REACTOR – PU 239 IS THE FUEL AND U 238 CONVERTED TO PU
  • 4.
  • 5. Breeder reactor • r= no of fuel atoms formed/ no of original fuel atoms consumed in fission ; r<1 convertor if r > 1 then breeder ( 7 to 15 yrs to produce fuel for another reactor) • Breeder generated energy and also produces fuel than it consumes.
  • 6.
  • 7.
  • 8. STATE OF FUEL • SOLID OR LIQUID- MOSTLY SOLID BUT MAY BE MIXED WITH URANIUM OXIDE TO FORM SLURRY IN WATER OR LIQUID METAL. SO ITS CALLED LIQUID METAL FUELED REACTOR( LMFR)-SGR – PERMITS HIGH TEMP, PRESSURIZATION SOLVED. • POSITION OF FERTILE AND FISSILE MATERIAL RELATIVE POSITION TO EACH OTHER IN REACTOR CORE.
  • 9. CHOICE OF MODERATOR • TYPES OF MODERATOR ; GRAPHITE , NATURAL WATER AND HEAVY WATER . GRAPHITE HAS HIGHER ATOMIC WEIGHT THAN WATER SO THEY ARE BULKY. NATURAL WATER GIVES A SMALL AND COMPACT REACTOR. CORE COMPOSITION
  • 10. METHOD OF COOLING • DIRECT COOLING AND INDIRECT COOLING • ORDINARY WATER IS USED WITH ENRICHED URANIUM AND HEAVY WATER WITH ORDINARY URANIUM DUE TO THEIR NEUTRON ABSORPTION CAPABILITY • LOW NEUTRON ABSORPTION
  • 11. GAS COOLED REACTOR • GAS IS CIRCULATED THROUGH REACTOR CORE TO COOL THE REACTOR.AIR ,HE ,HYDROGEN OR CO2. • POOR HEAT TRANSFER OF GASES REQUIRE HIGH PUMPING POWER. • CORROSION PROBLEMS RESOLVED • POWER DENSITY IS LOW
  • 12. WATER COOLED REACTOR • LIGHT WATER REACTOR- HAS GOOD THERMAL PROPERTIES, CHEAP COOLANT, BUT IT HAS CORROSION ISSUES AND DUE TO NEUTRON ABSORPTION MAY INTERRUPT CRITICALITY. • BWR-BOILING WATER REACTOR
  • 13. • WATER CONVERTS TO STEM AND DIRECTLY IMPINGES ON TURBINE • STEAM LEAVING REACTOR MAY BE RADIOACTIVE AND PIPING AND STEAM TURBINE
  • 14. PRESSURIZED WATER REACTOR • WATER IS PRESSURIZED TO PREVENT BULK BOILING AT 150 ATM. • HOT WATER FROM REACTOR FLOWS TO STEAM GENERATOR (HX)WHERE ITS HEAT IS TRANSFERRED TO FEED WATER TO GENERATE STEAM.
  • 15. • STEAM IS PRODUCED AT 7.5 TO 8 Mpa AND 320 C. • PWR ARE STABLE. • TURBINE LOOP SEPARATE THAN PRIMARY SO LESS CHANCES OF RADIOACTIVE. • THE LIQUID SHOULD BE HIGHLY PRESSURIZED TO REMAIN LIQUID AT HIGH TEMP.SO HIGH COST PIPE
  • 16. COOLANT • COOLANT PICKS UP HEAT AND KEEP FUEL ASSEMBLIES AT SAFE TEMP TO AVOID DESTRUCTION AND MELTING. • AIR,HELIUM,WATER,CO2,H2,NA ,K, • IT SHOULD HAVE REALISTIC FLUIDITY FOR HT. • LOW ABSORTION OF NEUTRON • IF COMPOUND,STABILITY FROM DISASSOCIATION • SPECIFIC HEAT ANG K SHOULD BE HIGH TO HT. • NON CORROSIVE • THERMAL STABILITY
  • 17. NEW TRENDS • ORGANIC SUBSTANCE COOLED REACTORS ,OIL,PETROLEUM • CAN OPERTAE AT HIGH TEMP WITH MODERATE PRESSURE.SO LIGHTER EQUP,DEVICES ,PIPES( ORDINARY STEEL ) AND REDUCED COST. • LESS CORROSIVE THAN WATER • H2 CONTENTS MAKES THEM ACCEPTABLE AS MODERATORS • THESE DON’T BECOME RADIOACTIVE AS NEUTRON BOMBARDMENT. • DON’T FREEZE AT LOW TEMP SO GOOD FOR USE IN COLD REGIONS