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钠冷快堆液态钠雾化特性实验研究OACSTPCD

Experimental Study on Atomization Characteristic of Liquid Sodium in Sodium-cooled Fast Reactor

中文摘要英文摘要

液态钠泄漏和钠火事故是钠冷快堆中常见易发的事故之一,而液态钠的雾化特性是影响喷雾钠火的关键因素.为了研究液态钠的雾化特性及其影响因素,本文基于设计制造的一种液态钠雾化特性实验装置,进行了液态钠雾化特性实验研究.研究了液态钠在不同工况下的雾化特性,测量了不同工况下液态钠雾场的喷雾角及雾化钠滴的粒径分布,并研究了压力(0.1~0.5 MPa)、初始钠温(200~400 ℃)、泄漏高度(55~85 cm)、泄漏边界形状(圆形,椭圆形,尖锐裂缝,粗糙裂缝)以及初始液态钠质量(20~150 g)等因素对液态钠雾化特性的影响.该研究可为喷雾钠火的仿真和安全评估提供基础实验数据,能为钠火防控措施提供技术参考.

Liquid sodium leaks and sodium fire accidents are common occurrences during the operation of sodium-cooled fast reactors and pose key and challenging issues in their development.Of the different forms of sodium fire,spray sodium fire has the most severe consequences and is the primary threat to plant safety.The atomization charac-teristics of liquid sodium are a crucial factor affecting the spray sodium fire.Studying these characteristics through experimental research could provide essential data for simulating and evaluating the safety of spray sodium fires.In this paper,an experimen-tal visualization device that takes into consideration the material characteristics of liquid sodium was designed and constructed.In the experiments,the liquid sodium with varying masses(20-150 g)and temperatures(200-400 ℃)was injected from nozzles of different shapes(round,oval,sharp crack,rough crack)at different heights(55-85 cm)using high-pressure nitrogen(0.1-0.5 MPa),generating sodium liquid sprays.The experimental phenomenon was noted and recorded.Finally,the sodium spray was collected within a cooling tank filled with liquid paraffin,which caused liquid droplets to solidify into solid sodium particles.The size distributions of the liquid sodium droplets in the spray field were inferred by measuring those of solid sodium particles.The study analyzed the effects of injection pressure,initial sodium mass and temperature,leakage height,and leakage boundary shape on the liquid sodium spray characteristics.It is found that the process of liquid sodium spray can be divided into three stages:the column flow stage,the transition stage and the atomization stage.As the stages deve-lop,the liquid sodium spray angle will progressively rise,reaching its peak during the atomization stage.The raising of leakage height and injection pressure causes increased flow rate of liquid sodium resulting in intensified air disturbance for more atomized sodi-um flow,leading to a decrease in mass intermediate diameter of the sodium spray.The atomization characteristics of liquid sodium are greatly influenced by the leakage bounda-ry,and the mass intermediate diameter of the spray decreases approximately linearly with the increase of the shape factor of the leakage boundary.Increasing the initial temperature of liquid sodium may lead to a reduction in its surface tension and viscosity,potentially promoting sodium flow atomization.However,such changes are likely to be negligible,thereby limiting the impact of the initial temperature on the atomization characteristics within experimental conditions.The rise in sodium mass would result in an elevation of the liquid level within the crucible,thereby reducing the impact of high-pressure gas on the leakage end in the proximity of the nozzle.Consequently,the intermediate mass diameter of the spray will increase with the initial sodium mass.This research can provide fundamental experimental data for the simulation and safety assess-ment of spray fires of liquid sodium and can provide technical references for sodium fire prevention and control measures.

马瑶龙;张智刚;魏小东;李泓兴

哈尔滨工程大学核安全与仿真技术国防重点学科实验室,黑龙江哈尔滨 150001

核科学

液态钠雾化特性粒径分布泄漏边界喷雾角

liquid sodiumatomization characteristicparticle size distributionleakage boundaryspray angle

《原子能科学技术》 2024 (001)

钠冷快堆液钠泄漏雾化和燃烧机理研究

198-210 / 13

国家自然科学基金(52176151);中央高校基本科研业务费(30720227S1503)

10.7538/yzk.2023.youxian.0452

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