Атомная энергетика| Nuclear power plants
Final Certification |Итоговая Аттестация
Lesson 1
Read the text: Nuclear reactor. Fuel and moderator. Heat removal.
A system utilizing nuclear fission is carried out in a controlled and self-sustaining manner.
Neutrons are used to fission the nuclear fuel, and the fission reaction produces not only energy and radiation but also additional neutrons. Thus a neutron chain
reaction ensues. A nuclear reactor provides the assembly of materials to sustain and control the neutron chain reaction, to appropriately transport the heat produced from the fission reactions,
and to provide the necessary safety features to cope with the radiation and radioactive materials produced by its operation. Nuclear reactors are used in a variety of ways as sources for energy,
for nuclear irradiations, and to produce special materials by transmutation reactions. The generation of electrical energy by a nuclear power plant makes use of heat to produce steam or to heat
gases to drive turbogenerators.
Direct conversion of the fission energy into useful work is possible, but an efficient process has not yet been realized to accomplish
this. Thus, in its operation nuclear power plant is similar to the conventional coal-fired plant, except that the nuclear reactor is substituted for the conventional boiler as the source of
heat.
The rating of a reactor is usually given in kilowatts (kW) or megawatts-thermal (MW(th)],
representing the heat generation rate. The net output of electricity of a nuclear plant is about one-third of the thermal output. Significant economic gains have
been achieved by building improved nuclear reactors with outputs of about 3300 MW(th) and about 1000 MW-electrical (MW(e).
Fuel and moderator
The fission neutrons are released at high energies and are called fast neutrons. The average kinetic energy is 2 MeV, with a corresponding
neutron speed of 1/15 the speed of light. Neutrons slow down through collisions with nuclei of the surrounding material. This slowing-down process is made more effective by the introduction of
materials of low atomic weight, called moderators, such as heavy water (deuterium oxide), ordinary (light) water, graphite, beryllium, beryllium oxide, hydrides, and organic materials
(hydrocarbons). Neutrons that have slowed down to an energy state in equilibrium with the surrounding materials are called thermal neutrons, moving at 0.0006% of the speed of light. The
probability that a neutron will cause the fuel material to fission is greatly enhanced at thermal energies, and thus most reactors utilize a moderator for the conversion of fast neutrons to
thermal neutrons.
With suitable concentrations of the fuel material, neutron chain reactions also can be sustained at higher neutron energy levels. The
energy range between fast and thermal is designated as intermediate. Fast reactors do not have moderators and are relatively small.
Only three isotopes—uranium-235, uranium-233, and plutonium-239—are feasible as fission fuels, but a wide selection of materials incorporating these isotopes is
available.
Heat removal
The major portion of the energy released by the fissioning of the fuel is in the form of kinetic energy of the fission fragments, which in
turn is converted into heat through the slowing down and stopping of the fragments. For the heterogeneous reactors this heating occurs within the fuel elements. Heating also arises through the
release and absorption of the radiation from the fission process and from the radioactive materials formed. The heat generated in a reactor is removed by a primary coolant flowing through
it.
1. Match the left part with the right:
1. Nuclear reactors are used
a)
fission the nuclear fuel.
2. For the heterogeneous reactors this heating b) occurs within the fuel elements.
3. The fission neutrons are released
c) in a variety of ways as sources for energy.
4. Neutrons are used to
d) at high energies and are called fast neutrons.
2. Complete the sentences with the suggested words: similar, useful, efficient, conventional.
Direct conversion of the fission energy into ________ work is possible, but an_________ process has not yet been realized to accomplish this. Thus, in its operation
nuclear power plant is _______to the conventional coal-fired plant, except that the nuclear reactor is substituted for the ____________boiler as the source of heat.