What’s more, commercial implementation of fusion is already on the horizon. It is the kind of field, though, in which practice would not be possible without theory. Even though progress in the area of fusion research has been more theoretical then practical, the field of study is constantly growing as new methods of solving problems are discovered. The quest for alternative sources of energy never stops. Thermonuclear reactors also present benefits on all three stages of processing: fuel, operation, and waste products. That is, the technologies implemented thus far are either not the safest for the environment, or not the most expedient. And, thirdly, they offer a much safer way of electric energy production. Secondly, their fuel sources are virtually unlimited, since they are the most abundant elements in the universe. Firstly, they are more efficient, and require only about one millionth of the mass of fuel needed to produce the same amount of energy as a coal operating power plant. Nuclear fusion power plants, also referred to as thermonuclear reactors, may be the best answer to the problem. This article discusses the mechanics of nuclear fusion and explains that, in terms of safety, resource availability, cost, and waste management, fusion power may be the best commercial option in the near future.Ĭivilization development constantly demands more efficient sources of energy, sources which would simultaneously pose minimal threat to the environment. Fusion power, however, would be an ideal answer to our current demand for economical and environmentally friendly energy production. In the search for sources of energy, discussions of nuclear fusion power as an option have often been seen as unrealistic, overshadowed by the viability of nuclear fission.
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