Numerical Simulation of Fission Product Behavior Inside the Reactor Containment Building Using MATLAB

Numerical Simulations in Engineering and Science Pub Date : 2017-12-20 DOI:10.5772/INTECHOPEN.70706

K. Mehboob, M. S. Aljohani

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Abstract

The aim of this work is to carry out the numerical simulation of fission product (FP) behavior inside the reactor building under loss of coolant accident (LOCA) using MATLAB. For this purpose, a kinetic model has been developed and implemented in MATLAB to study the behavior of in-containment FPs during postulated LOCA for typical 1000 MW pressurized water reactor (PWR). A continuous release of the FPs from the reactor pressure vessel (RPV) has been implemented with coolant retention. The in-containment FP behavior is influenced by containment atmosphere and contain- ment safety systems. The sensitivity analysis and removal rate of airborne isotopes with the containment spray system have been studied for various spray activation time, spray failure time, droplet size and spray pH value. The droplet size and pH value of the spray system effectively remove the airborne isotopes. The alkaline (sodium thiosulfate, Na 2 S 2 O 3 ) spray solution and spray with pH 9.5 have similar scrubbing properties for iodine. However, the removal rate from the containment spray system has been found an approximately inverse square of droplet diameter (1/d 2 ).

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基于MATLAB的反应堆安全壳内裂变产物行为数值模拟

本工作的目的是利用MATLAB对失冷剂事故(LOCA)下反应堆建筑内裂变产物(FP)的行为进行数值模拟。为此，在MATLAB中开发并实现了一个动力学模型，以研究典型1000mw压水堆(PWR)在假定的LOCA期间的安全壳内FPs行为。在冷却剂保留的情况下，从反应堆压力容器(RPV)连续释放FPs。安全壳内FP行为受安全壳气氛和安全壳安全系统的影响。研究了密闭喷雾系统对不同激活时间、失效时间、液滴大小和pH值对空气中同位素的敏感性分析和去除率。喷雾系统的液滴大小和pH值可以有效地去除空气中的同位素。碱性(硫代硫酸钠，na2s2o3)喷雾溶液和pH为9.5的喷雾溶液对碘的洗涤性能相似。然而，从密封喷雾系统的去除率已经发现了液滴直径(1/d 2)的近似反比平方。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Numerical Simulations in Engineering and Science

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