Bigjoemonger said:Some hydrogen is probably lost to the tungsten barrier in a tokamak.
tony phu said:Basically, the proton-proton reaction in the sun does not produce energy but instead converts gravity energy into other forms, we can hardly get much more energy than the input energy.
tony phu said:Thanks, energy from the sun is triggered by gravity but in the tokamak energy reactor to trigger a reaction that is pushing the nucleus up close to the speed of light it will need more energy and use a laser to activate it react
Proton-boron fusion is a type of nuclear fusion reaction that involves the fusion of a proton with a boron nucleus. This reaction produces energy in the form of high-energy alpha particles and does not produce any radioactive waste, making it a potential source of clean and sustainable energy.
Unlike other fusion reactions, proton-boron fusion does not require high temperatures or pressures to initiate. It can occur at relatively low energies, making it more feasible for practical applications. Additionally, this reaction does not produce any neutrons, which greatly reduces the amount of harmful radiation and radioactive waste.
Proton-boron fusion has the potential to provide a virtually limitless source of clean energy. It produces no greenhouse gases or radioactive waste, making it a sustainable and environmentally-friendly alternative to traditional energy sources. It also requires very little fuel and can be easily controlled, making it safer than other forms of nuclear energy.
One of the main challenges of proton-boron fusion is the difficulty in initiating and sustaining the reaction. It requires precise control and containment of the reactants, as well as the use of advanced technologies such as powerful lasers or magnetic fields. Another challenge is the production of high-energy alpha particles, which can be difficult to harness for energy production.
While research on proton-boron fusion is ongoing, it is still in the early stages and has not yet been achieved in a controlled and sustained manner. However, there have been promising developments and advancements in this field, and it is considered a potential candidate for future energy production. Further research and technological advancements are needed to make this a viable source of energy.