Fusion power plants will generate power by exploiting nuclear fusion. The most encouraging fusion reaction is the DT reaction since it has the most elevated cross-sections at least energies (Figure 1.) The first generation of fusion power plants will use deuterium and tritium as fusion fuels. Other than deuterium, tritium is the principle fuel segment for the current (for example JET) and future (for example ITER) trial fusion reactors. Commercial fusion reactors will produce tritium in the tritium breeding module. Experimental reactors like ITER will be utilized for testing of tritium rearing systems. Thus, tritium for their activity should be acquired from outer sources. It is predicted that tritium consumption of ITER will be around 1.5 kg per year. In contrast to deuterium, which is moderately effectively available, the natural sources of tritium are extremely restricted. There is just around 4 kg of tritium on Earth, which is made by cosmic rays in the atmosphere 0; it should be created falsely for the necessities of future fusion reactors.