The process of splitting strontium isotopes 38 88 in a nuclear reactor to generate heat energy, these isotopes of strontium atoms = 82

摘要

A method of splitting 38/88 strontium isotopes in a nuclear reactor to produce thermal energy - in these isotopes strontium atoms 82%, in a nuclear reactor (which cleave enriched uranium isotopes 235) loaded into fuel rods 38/88 enriched strontium isotopes, their extracted from 90 kg common strontium atoms 90 kg: 100% = 0.9% = 1 kg, 0.9 kg · 82% = 73.8 kg of enriched isotopes of strontium 38/88 to start a chain reaction of fission and strontium isotopes 88 = 73.8 kg located in a nuclear reactor fuel rod is irradiated with neutrons (for start dividing enriched uranium isotopes 235 is irradiated with neutrons contact in order to quickly start split core), fissile isotopes of strontium capture neutrons captured neutrons digested nucleus and fissile nucleus emit thermal energy and emit neutrons emitted by neutron capture following strontium nucleus fission process proceeds, and neutron irradiation of strontium isotopes stopped, the process of dividing the strontium isotopes in a nuclear reactor is controlled neutron absorbers extra - special rods filled with boron, and they are automatically controlled devices, and the devices nab ljuda operators of nuclear reactor, strontium 88 digested in a nuclear reactor and 1 g of isotopes emit heat energy T = 8.01 replace oil, strontium isotopes 88 = 73.8 kg cleaved in a nuclear reactor, and these isotopes emit thermal energy = 73.8 kg 73800 g = 8,01 m · t = 591 138 replaced the burning of oil, - characterized in that the nuclear reactor fuel rods charged in = 72 kg of enriched uranium isotopes 235, which is recovered from the 10 tons of uranium 238, uranium 235 isotope is cleaved in a nuclear reactor and receive thermal energy and replaced burning oil: 72 kg = 72000 g · m 3 = 216000 tons.