Power Plant Engineering
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Power-Plant-Engineering
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- 10.21 REACTOR POWER CONTROL
- 10.22 NUCLEAR POWER PLANT ECONOMICS
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Fig. 10.10
Fig. 10.11 4. Centrifugation Method, This method is based on the fact that when a mixture of two gases with different molecular weight is made to move at a high speed in a centrifuge, the heavier gas is obtained near the periphery. UF 6 vapour may be filled in the centrifuge and rotated to separate uranium isotopes. 10.21 REACTOR POWER CONTROL The power released in a nuclear reactor is proportional to the number of mole fissioned per unit time this number being in turn proportional to density of the neutron flux in the reactor. The power of a nuclear reactor can be controlled by shifting control rods which may be either actuated manually or automatically. Power control of a nuclear reactor is simpler than that of conventional thermal power plant because power of a nuclear reactor is a function of only one variable whereas power of a thermal power plant depends on number of factors such as amount of fuel, its moisture content, air supply etc. This shows that power control of thermal plant requires measuring and regulating several quantities which is of course considerably more complicated. 10.22 NUCLEAR POWER PLANT ECONOMICS Major factors governing the role of nuclear power are its economic development and availability of sufficient amount of nuclear fuel. It is important to extract as much energy from a given amount of fuel as possible. The electrical energy extracted per unit of amount of fuel or expensive moderator might be called the “material effi- ciency”. In a chain reactor the high material efficiency as well as high thermal efficiency leads to low over all energy cost. Since the most attractive aspect of nuclear energy is the possibility of achieving fuel costs con- siderably below that for coal, all nuclear power system being considered for large scale power produc- tion involve breeding or regenerative systems. This program includes the development of the technol- ogy of low neutron absorbing structural materials such as zirconium, the use of special moderating materials such a D20 and the consideration of special problems associated with fast reactors. In so far as economic factors are concerned it is necessary to consider neutron economy in a general way such as that measured by the conversion ratio of the system. The conversion ratio is defined as the atoms of new NUCLEAR POWER PLANT 337 fuel produced in fertile material per atom of fuel burnt. The conversion ratio varies with the reactor design. Its values for different reactors are indicated in table. Download 3.45 Mb. Do'stlaringiz bilan baham: 
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