CPR1000压水堆主冷剂Co-58和Co-60活性随时间变化的研究

Volume 9: Decontamination and Decommissioning, Radiation Protection, and Waste Management Pub Date : 2022-08-08 DOI:10.1115/icone29-92822

Xiaoqian Zhang, Pengtao Fu

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引用次数: 0

摘要

活化腐蚀产物是压水堆维护过程中的主要辐射源。Co-58和Co-60是两种重要的放射性核素，因为它们在初级回路中具有高能量发射伽马射线和高放射性活动。根据压水堆的运行经验，它们在维护期间造成了90%以上的职业辐射暴露。因此，有必要研究这两种放射性核素的行为。本文分析了Co-58和Co-60冷却剂短期趋势和长期趋势的活性。CPR1000压水堆的运行经验(OPEX)表明，在燃料循环中Co-58和Co-60冷却剂的活性通常导致碗状的形状，并且在循环开始时活性最高，这与堆芯沸腾速率的形状一致。也就是说，燃料原油行为在一次回路中活性腐蚀产物的形成中起主导作用。对于Co-58和Co-60冷却剂的长期活性，主要受腐蚀/释放速率和放射性核素半衰期的影响。OPEX结合CAMPSIS代码模拟表明，Co-58冷却剂活性在第2 ~ 3个循环时达到最大值，Co-60冷却剂活性在第5 ~ 9个循环时达到最大值。研究Co-58和Co-60随时间变化的冷却剂活性，可以更好地了解放射性核素的行为，并为建立腐蚀产物模拟模型提供依据。

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Study on Time-Dependent Co-58 and Co-60 Activities in the Primary Coolant of CPR1000 PWRs

Activated corrosion products are the dominate radiation source during PWR maintenance. Co-58 and Co-60 are two important radionuclides due to the high energy emitting gamma rays and high radio activities in the primary circuit. They have contributed to more than 90% occupational radiation exposure during maintenance according to operating experiences from PWRs. Therefore, it is essential to research the behaviour of the two radionuclides. The Co-58 and Co-60 coolant activity for both short-term tendency and long-term tendency are analyzed in this paper. Operating Experience (OPEX) from CPR1000 PWRs show that the Co-58 and Co-60 coolant activity in a fuel cycle usually result in shape of a bowl and the highest activities are at the beginning of the cycle which is consistent with the shape of the core boiling rate. Namely, fuel crud behavior plays a leading role in the formation of activated corrosion products in the primary circuit. For Co-58 and Co-60 coolant activity in long-term period, it is influenced mainly by the corrosion/release rate and the radionuclides’ half-lives. OPEX combined with simulation by CAMPSIS code show that Co-58 coolant activity reach to maximum value at second to third cycle while Co-60 coolant activity reach to maximum value at fifth to ninth cycle. Research on time-dependent Co-58 and Co-60 coolant activities give a better understanding of the radionuclide behaviour as well as provide a basis for developing corrosion product simulating model.

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来源期刊

Volume 9: Decontamination and Decommissioning, Radiation Protection, and Waste Management

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