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引用次数: 0
摘要
在压水堆反应堆中,高于正常运行速率的温度会导致燃料和包壳(UO 2 / Zircaloy)之间的氧化速率增加,从而释放出大量氢气,导致反应堆堆芯内部以及压力容器壁上的压力和温度升高,并可能导致反应堆堆芯的部分或全部损坏。这项研究探讨了新型燃料的开发,如氮化铀(UN)和硅酸铀(U 3 Si 2)。此外,还测试了碳化硅和(铁-铬-铝)合金等两种包壳。对这些新型堆芯的中子和热特性进行了研究,因为它们的特点是燃料与堆芯相互作用的概率较低,而且在导热性和热容量方面具有良好的中子和热特性,从而提高了运行期间以及发生核事故时的安全系数。
Analysis of Optimum Accident Tolerant Fuel and Cladding Behavior in Advanced Pressurized Water Reactor
In PWR reactors, a higher temperature than the normal operation rate causes an increase in the oxidation rate between the fuel and the clad (UO 2 / Zircaloy), and this results in the release of large quantities of hydrogen, which leads to an increase in pressure and temperature inside the reactor core and also on the walls of the pressure vessel, and perhaps partial or total damage to the reactor core. This research examines the development of new types of fuel such as Uranium Nitride (UN), Uranium Silicate (U 3 Si 2 ). Also, two types of clads such as Silicon Carbide and (Fe-Cr-Al) alloy are tested. The neutronic and thermal properties of these new types have been studied, as they are characterized by the low probability of fuel interaction with cladding, as well as the presence of good neutronic and thermal properties in terms of thermal conductivity and heat capacity, which lead to an improvement in the safety margin during operation and also in the event of nuclear accidents.
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