The 100 MW project with a targeted Q factor greater than 30, could become a reality by 2030. 

• The Q factor is the ratio of energy produced to energy consumed in heating the plasma inside the fusion reactor.    

About Fusion-Fission Hybrid Reactor

• Concept: Uses high intensity neutron flux produced by a fusion reactor to drive a nuclear fission reaction, and breed fissile fuel from fertile materials. 
• Design: Contains a nuclear fusion reactor core where deuterium and tritium nuclei are fused to form helium and a fast neutron, surrounded by a blanket of fertile material (like uranium-238 or thorium-232). 

Key Striking features of the Hybrid Reactor

• Capitalises on the advantages of Fusion and Fission: Fusion reactors are ‘neutron rich’ and ‘power poor’ while fission reactors are ‘neutron poor’ and ‘power rich’. 
• Low Power Requirements: Fusion power required for hybrid reactor is lesser than pure fusion as its major purpose is the production of neutrons (not energy). 
• Reduced Radioactive Wastes: Neutron flux in the blanket could transmute long-lived radioactive waste into less harmful, short lived, and easier to dispose wastes. 
• Fuel Supply: Hybrid reactor would produce enough fissile fuel through breeding. 
  • The fusion neutrons can convert fertile materials into fissile materials (like plutonium-239 or uranium-233) increasing fuel supply.