Clean Imperatives of Energy- Nuclear Power can Meet the Challenge S A Bhardwaj DAE Homi Bhabha Chair Securing India's Clean Energy.

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Presentation transcript:

Clean Imperatives of Energy- Nuclear Power can Meet the Challenge S A Bhardwaj DAE Homi Bhabha Chair Securing India's Clean Energy Future- Role of Nuclear Energy, 14 October 2014, New Delhi

James Watt Steam Engine

Natural Resources for Nuclear Power Uranium Thorium

Mined Uranium Only 0.7% ( the Uranium 235 isotope) of this is fissile fuel Rest is Uranium 238 Initiates power production in current reactors of the world

On operation of current reactors the small Uranium 235 isotope produces Electricity Radioactive waste Small quantity of synthetic fuel Plutonium ( from uranium 238) Unused Uranium

Radioactive waste Smaller quantity of synthetic fuel Plutonium Unused Uranium Plutonium and radioactive waste remain embedded in the unused uranium. The whole spent fuel is treated as radioactive nuclear waste in many countries at present. SPENT FUEL- RADIOACTIVE WASTE

Radioactive waste Smaller quantity of synthetic fuel Plutonium Unused Uranium On the contrary, if the spent fuel is reprocessed through chemical process it opens possibility of accessing energy potential of large unused uranium -a precious resource. This is the objective of the THREE STAGE NUCLEAR POWER PROGRAMME conceived by Dr Bhabha way back in mid fifties

Reprocessing  A unique feature of nuclear energy is that used fuel may be chemically reprocessed to recover recyclable materials to provide fresh fuel for future nuclear power plants.  Reprocessing of spent fuel also reduces the volume of high-level wastes

Recycling the reprocessed Plutonium and uranium synthetic fuel Plutonium Unused Uranium + portion of unused uranium Make fuel for FAST BREEDER REACTORS without any additional mining

FAST BREEDER REACTORS Plutonium mixed with used uranium(mostly uranium 238) when used as fuel produce more plutonium from uranium than the consumption of plutonium. They BREED fuel. The nuclear installed capacity grows. No mining required. The large amount of unused uranium from previous thermal reactor becomes a resource. Long half life plutonium gets consumed

FAST BREEDER REACTORS Unused Uranium Electricity Make fuel for more FAST BREEDER REACTORS without any additional mining More Plutonium, thus Reactors possible

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Thorium Unused Uranium Electricity Thorium Thorium – uranium233 Power plants Uranium233

 A unique feature of nuclear energy is that used fuel may be reprocessed to recover recyclable materials to provide fresh fuel for future nuclear power plants.  Reprocessing of spent fuel also reduces the volume of high-level wastes – though small in volume is high in radioactivity and a small fraction of this has very long radioactive life.

The waste is composed of different elements. In principle the chemical reprocessing can be extended to separate out very long lived components of waste- PARTITION the waste.

Clean Energy Nuclear power produce no green house gases. The very small highly radioactive waste generated so far is being vitrified. In coming times partitioning of waste will be possible and it can be transmuted in fast neutron reactors to make such waste negligibly small. Thorium will not add to long term waste.

Nuclear power is a clean energy source potential to be available for coming centuries, in large capacity and with round the clock availability. Thanks for your kind attention