![]() ![]() Natural uranium contains 0.7% of the fissile 235 U the rest is non-fissile 238 U. The major improvement is the elimination of the combustion products of fossil fuels-the greenhouse gases, which have destroyed our environment beyond repair.īecause of its abundance in nature, most nuclear reactors use uranium as fuel. The steam turns the turbine blades, the blades generate mechanical energy, the energy runs the generator, and the generator produces electricity. Only the source of heat energy differs-nuclear power plants use fissile radioactive nucleus, while nonnuclear power plants use fossil fuel. The reactor functions primarily as an exotic heat source to turn water into pressurized steam. ![]() Emphasis is given on overcoming some of the technological challenges, such as surmounting the Coulomb barrier, confining the plasma, and achieving the “ignition” temperature for fusion.Īll nuclear power plants in operation today rely on controlled fission of the isotopes of uranium and plutonium. ![]() Various research programs dedicated to building fusion reactors are also discussed. In this chapter, harnessing the energy produced in nuclear fusion reaction in a laboratory environment is discussed. It is nuclear fusion-a process in which two lighter nuclei, typically isotopes of hydrogen, combine together under conditions of extreme pressure and temperature to form a heavier nucleus. There is another kind of nuclear energy that has been powering the Sun and stars since their formation. However, the 1986 Chernobyl and 2011 Fukushima accidents have heightened our fears about nuclear technology’s ability to provide a safe way of generating clean power. The declining reserves of fossil fuels and their detrimental effects on the environment have thrust nuclear power based on fission reaction into the limelight as a promising option to energy-starved economies around the world. ![]()
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