IPR-R1 TRIGA® 研究反应堆的水质管理计划

Alexandre Soares Leal, João Gabriel Oliveira Marques, Amir Zacarias Mesquita, Daniel Almeida Magalhães Campolina, Denise Das Merces Camarano, Jefferson Jose Vilela
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摘要

核技术研发中心(CDTN)的 IPR-R1 Triga 核研究反应堆是世界上运行时间最长的反应堆之一。它是一座结构紧凑、固有安全的反应堆,可在 100 千瓦的持续功率水平下运行,使用的固体均质通用原子(GA)燃料元件是由锆氢化物慢化剂与 20% 的浓缩铀均质组合而成。反应堆堆芯位于约 6.0 米屏蔽水下的水箱底部。反应堆的运行时间长达 63 年,水与堆芯的接触会对 IPR-R1 反应堆产生腐蚀作用,影响其安全运行。为了使水质符合建议的化学物理标准,根据国际原子能机构(IAEA)的建议,实施了一项水质管理计划。水质管理计划是适用于核反应堆的良好实践指南,目的是使核反应堆的冷却水保持特定的物理化学标准。本次工作的主要目的是介绍 IPR-R1 Triga 水化学计划从 2022 年下半年到 2023 年上半年的结果,即该装置在 Covid-19 大流行后恢复正常活动的时间。评估的物理化学参数(如 pH 值、α 和β 辐射、电导率和伽马射线发射器)表明,IPR-R1 反应堆的运行符合建议的安全标准。
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Water quality management program for IPR-R1 TRIGA® research reactor
The IPR-R1 Triga nuclear research reactor of the Nuclear Technology Development Center (CDTN) is one of the oldest reactors in operation in the world. It is a compact and inherently safe reactor that operates at a continuous power level of 100 kW with a solid homogeneous General Atomic (GA) fuel element of zirconium hydride moderator homogeneously combined with 20% enriched uranium. The reactor core is at the bottom of a tank under approximately 6.0 meters of shielding water. The long operation time of the reactor, 63 years, and the contact of the water with the core, can induce corrosive processes in the IPR-R1 reactor and affect its safe operation. To keep the water quality according to the chemical-physical recommended standards, a quality management program, as recommended by the International Atomic Energy Agency (IAEA), was implemented. The water quality management program is a guideline of good practices applied to nuclear reactors, targeting to keep their water coolants at specified physical-chemical standard. The main aim of the present work is to introduce IPR-R1 Triga’s water chemistry program results from the second half of 2022 till the first half of 2023, when the installation returned to its regular activities after the Covid-19 pandemic. The physical-chemical parameters evaluated (e.g.: pH, alpha and beta radiation, electrical conductivity and gamma emitters) shows that the IPR-R1 reactor operates within recommended safety standards.
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