Abstract
The International Thermonuclear Experimental Reactor (ITER) tokamak can generate fusion energy in an acceptable method. In this study, the particle and energy equations were developed for $${\text{T}}\left( {{\text{D}},n} \right){}^{4}{\text{He}}$$ , $${\text{D}}\left( {{\text{D}},n} \right){}^{3}{\text{He}}$$ , $${\text{D}}\left( {{\text{D}},p} \right){\text{T}}$$ , and $${}^{3}{\text{He}}\left( {{\text{D}},p} \right){}^{4}{\text{He}}$$ fusion reactions and optimum conditions were determined to achieve the maximum gain using differing mixtures of fuel. Also, the particle and energy equations were solved using the zero-dimensional model, and the ITER90H-P plasma parameters were calculated by the numerical methods. The possibility regarding the presence of impurities was ignored in all our calculations.
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