管壳式热交换器结垢故障虚拟感知方法
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TH-81

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国家重点研发计划(2020YFB1709702)、国家自然科学基金重点项目(52234007)资助


A virtual sensing method of fouling fault in shell and tube heat exchanger
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    摘要:

    随着核电、石油化工等行业需求的增长以及工艺复杂程度的提升,其关键设备状态的安全监测缺少直接、实时、在线的 监测手段,难以实现故障的准确诊断与预警。 本文选取石化和核电行业关键设备管壳式热交换器作为研究对象,通过分析热交 换器换热管外结垢机理及对换热性能影响,应用总传热系数建立换热效率、传热平均温差与结垢厚度间的表征关系,提出了一 种管壳式热交换器结垢故障虚拟感知方法,利用热交换器的温度、压力、流量等高精度、易获取运行数据,实现热交换器结垢厚 度在线准确感知。 最后,通过在热态功能试验台架回路上采用高压容器试验件开展了测试验证。 结果表明,基于总传热系数的 热交换器结垢虚拟感知模型能够在 30% 误差范围内实现在管径 2. 2% 以上的垢层厚度监测。

    Abstract:

    With the growth of demand and the improvement of process complexity in nuclear power, petrochemical and other industries, the safety monitoring of the status of key equipment lacks direct, real-time and online monitoring methods. It is difficult to achieve accurate diagnosis and early warning of faults. In this article, the shell and tube heat exchanger, key equipment in the petrochemical and nuclear power industries, is selected as the research object. By analyzing the fouling mechanism of the heat exchanger and its impact on the heat transfer performance and applying the total heat transfer coefficient to establish the characterization relationship among the heat transter efficiency, the heat transfer mean temperature differential and the fouling thickness, a virtual sensing method of the fouling of the shell and tube heat exchanger is proposed. The method uses high-precision and easily accessible operation data of the heat exchanger, including temperature, pressure and flow, to realize the online accurate sensing of the fouling thickness of the heat exchanger. Finally, test is implemented by using a high-pressure vessel test piece on the hot state functional test bench circuit. The results show that the virtual sensing model of scale in heat exchanger based on the total heat transfer coefficient can monitor the fouling thickness above 2. 2% of the tube diameter within a 30% error range.

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王金江,孙佳正,高 逸,张凤丽,张来斌.管壳式热交换器结垢故障虚拟感知方法[J].仪器仪表学报,2022,43(12):277-284

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  • 在线发布日期: 2023-07-04
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