Comparison of different fuel materials
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1 Comparison of different fuel materials K.S. Rajan Professor, School of Chemical & Biotechnology SASTRA University Joint Initiative of IITs and IISc Funded by MHRD Page 1 of 7
2 Table of Contents 1 COMPARISON OF FUELS FOR NUCLEAR REACTORS OXIDE FUELS METALLIC FUEL METAL CARBIDE AND NITRIDE FUEL REFERENCE/ADDITIONAL READING... 7 Joint Initiative of IITs and IISc Funded by MHRD Page 2 of 7
3 In this lecture, we shall discuss the properties of different uranium compounds that can be used as fuel in commercial power reactors. At the end of this module, the learners will be able to (i) (ii) list the possible materials used as fuel compare them based on their thermo-physical properties 1 Comparison of fuels for nuclear reactors The nuclear reactors in operation around the globe utilize uranium (or) plutoniumbased materials as fuel. The fuel may be in the form of a metal or metal oxide, or metal carbide or metal nitride. Let us look at the important properties of fuel and their implications, which are shown in Table 1. These properties serve as the criteria for selection of fuel materials. Table 1: Important thermo-physical properties of nuclear fuels and their implications Property Nuclear properties: Absorption cross section, fission cross section, fission products, neutron production, energy released Thermal conductivity Implications Determines the mass of fissile required, volume of the core Indicates the ability of a material to transfer heat by thermal conduction. Higher values of thermal conductivity are desirable for fuels. This would facilitate rapid removal of heat from the fuel. As a result, with fuel of higher thermal conductivity the temperature gradient in the fuel will be low. In nutshell, higher thermal conductivity fuel permits the reactor operation at high power density and specific power (power per unit mass of fuel) without leading to excessive temperature gradients. Melting point Defines the limiting power of a fuel element. Reason: The maximum temperature that a fuel can be allowed to reach is influenced by the melting point. Lower the melting point of the fuel, lower is the maximum permissible temperature and the power of a fuel. Hence, fuels with higher melting Joint Initiative of IITs and IISc Funded by MHRD Page 3 of 7
4 points are desired Dimensional stability Coefficient of thermal expansion The fuel must exhibit dimensional stability at high temperatures and neutron irradiations. Increased burnup must not result in compromise of dimensional stability. Swelling results in compromise of dimensional stability. Swelling may arise either due to high temperature or neutron irradiation or both. A fuel with higher tendency to swell is likely to constrict the coolant channels. With excessive swelling, fuel may come in contact with cladding resulting in rupture of cladding and release of fission gases. A ceramic fuel like UO 2 retains fission gases more effectively and is less prone to swelling. A measure of expansion of a material with increase in temperature. It may be recalled that a small gap exists between the fuel pins and the cladding in the radial direction called fuel-cladding gap. When the fuel and cladding have different coefficients of thermal expansion then one of the following scenario may happen: (i) If the thermal expansion coefficient of fuel is more than that of cladding, the fuel expands more than that of cladding during heating resulting in reduced fuel-cladding gap. Eventually fuel and cladding may come into contact with each other. (ii) If the thermal expansion coefficient of cladding is more than that of fuel, cladding expands more than that of the fuel during heating resulting in increased fuel-cladding gap. The fuel-cladding gap contains (fission) gases that are poor conductors of heat. With increased fuel-cladding gap, the total thermal resistance for heat transfer between fuel and coolant increases. This causes increase in the temperature of the fuel due to reduced heat transfer. Chemical properties In case of cladding failure in terms of cracks, there will be direct contact between fuel and coolant. Joint Initiative of IITs and IISc Funded by MHRD Page 4 of 7
5 Under these circumstances, chemical stability of fuel while in contact with coolant is important. Let us discuss the suitability of different fuel materials based on the above criteria. 1.1 Oxide fuels The important examples in the category of oxide fuels are UO 2 (Uranium dioxide) or mixed oxide (UO 2 -PuO 2 ). The major disadvantages of oxide fuels are their lower density and lower thermal conductivity. Lower density leads to the requirement of a larger core diameter. One may be aware of the fact that to pack a certain mass of material of lower density, a relatively large volume of space is required. Since the density of oxide is low, their use requires reactors of larger diameter to be fabricated. Lower thermal conductivity leads to poor transfer of heat from the centre of the fuel pin to the edge of the pin and to the cladding. Hence the temperature at the centre of the fuel must be sufficiently high to ensure that the outer surface is sufficiently hot to transfer heat to the coolant. However, the fuel temperature cannot be allowed to increase beyond certain limits. If the maximum allowable temperature of the fuel is T max and that of the cladding is T clad, the lower thermal conductivity of oxide leads to a large difference between T max and T clad. Since the maximum allowable temperature of the fuel limits T max, limitation exists on T clad as well. This puts a limitation on the maximum temperature of primary coolant and hence that of the steam generated. Figure 1 shows the comparison of temperature profiles with two different types of fuels: (a) lower thermal conductivity fuel and (b) higher thermal conductivity fuel. These profiles are shown for a fixed fuel centre-line temperature. The temperature of a fuel is maximum at the centre-line and decreases radially outward in a cylindrical fuel element. A temperature difference exists in the fuel-clad gap due to higher resistance in this gap occupied by fission gases. A small resistance exists in the cladding layer as well. All these result in difference between the maximum temperature of the fuel (T max ) and the cladding surface temperature (T c ) with which the coolant is in contact. For a constant heat transfer rate, a higher temperature gradient (dt/dr) indicates higher resistance to heat transfer. The gradient may be split up into two parts: (i) temperature gradient in the fuel and (ii) temperature gradient in fuel-clad gap and in clad material. While comparing two fuels of different thermal conductivities, the temperature gradient in the fuel is more whose thermal conductivity is lower, when compared to that in a fuel of higher thermal conductivity. This is illustrated in the temperature profile shown in Figure 1a and 1b. Note that the temperature gradient in fuel-clad gap and in clad is same in both Figures 1a and 1b. However, the temperature gradient (shown as sharp decrease in temperature with radial position) in Figure 1a is high due to use of low thermal conductivity fuel. Joint Initiative of IITs and IISc Funded by MHRD Page 5 of 7
6 Fig 1. Temperature profiles in (a) low thermal conductivity fuel (b) higher thermal conductivity fuel. The profiles are drawn for the same fuel centre-line temperature. The dimensional stability, chemical and irradiation stability, compatibility with clad material and coolant make the metal oxide (uranium oxide) the most widely used fuel in light water reactors. In fast reactors, where the temperature and neutron flux are higher, UO 2 responds to environment and hence UO 2 -PuO 2 (mixed oxide) fuel is used. 1.2 Metallic fuel It is well known that the thermal conductivities of metals are greater than that of metal oxides. Accordingly, metallic uranium has better thermal conductivity compared to that of UO 2. The density of metallic uranium is also higher than that of UO 2. However, metallic uranium undergoes a change in crystalline phase at 660 C. A substantial change in the volume of metal is experienced as a result of this phase change. This results in damage to the integrity of the fuel elements. Owing to this, metallic uranium is not used as fuel in power reactors. Joint Initiative of IITs and IISc Funded by MHRD Page 6 of 7
7 1.3 Metal carbide and nitride fuel Uranium carbide and uranium nitride have higher density and thermal conductivity than uranium dioxide. These fuels are inferior to uranium dioxide as far as the compatibility with cladding, swelling under irradiation and retention of fission gas are concerned. Hence, these were used in test reactors only. 2 Reference/Additional Reading 1. Joint Initiative of IITs and IISc Funded by MHRD Page 7 of 7
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