CFD simulation and experimental study on the flow field and typical energetic dust dispersion in the 5 L column vessel

IF 3.6 3区工程技术 Q2 ENGINEERING, CHEMICAL

Journal of Loss Prevention in The Process Industries Pub Date : 2024-10-29 DOI:10.1016/j.jlp.2024.105473

Haoyang Guo, Mengli Yin, Shengnan Shi, Wenhui Wang, Erhai An, Xiong Cao

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引用次数: 0

Abstract

The explosion of energetic dust is more hazardous than general industrial dust, but there was a dearth of suitable equipment for measuring the explosion characteristics of energetic dust. At present, a 5 L column vessel can be used to measure the explosion characteristics of energetic dust has been created. This study examined the internal flow field and dispersion pattens of RDX dust with different particle sizes within the 5L vessel by combining CFD simulation and experiments. The results demonstrated that the flow field underwent a transformation following the introduction of RDX dust, accompanied by a notable decline in turbulence level and velocity within the vessel, and the comparison of simulation and experimental results showed that the valve weakened the airflow. The large-sized (Class-II) dust showed significant settling and more independent motion trajectory, whereas the small-sized (Class-V) dust formed a dust column in the central line of the vessel and showed better suspension, but the flow field exhibited a lack of symmetry. The optimal ignition delay time was 70 ms, and in the 70 ± 10 ms interval, the distribution of Class-II dust was more uniform. Compared with the existing 20 L spherical vessel, the 5 L vessel exhibited a markedly lower but more uniform turbulence level, and the dust distribution was significantly improved, meanwhile solved the problems of dust accumulation in the pipeline and particle size change. This study provides an important reference for the further research of 5 L column vessel and proves that it can achieve higher safety and accuracy in energetic dust explosion experiment.

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5 L 柱形容器中的流场和典型高能粉尘弥散的 CFD 模拟和实验研究

高能粉尘的爆炸比一般工业粉尘更具危险性，但却缺乏测量高能粉尘爆炸特性的合适设备。目前，一种可用于测量高能粉尘爆炸特性的 5 L 柱形容器已经问世。本研究通过 CFD 模拟和实验相结合的方法，研究了不同粒径的 RDX 粉尘在 5 L 容器内的内部流场和分散模式。结果表明，在引入 RDX 粉尘后，流场发生了变化，容器内的湍流水平和速度明显下降，模拟结果和实验结果的比较表明，阀门削弱了气流。大粒径（II 级）粉尘沉降明显，运动轨迹更加独立，而小粒径（V 级）粉尘在容器中心线形成粉尘柱，悬浮效果较好，但流场缺乏对称性。最佳点火延迟时间为 70 毫秒，在 70 ± 10 毫秒的间隔内，II 类粉尘的分布较为均匀。与现有的 20 L 球形容器相比，5 L 容器的湍流水平明显降低，但更加均匀，粉尘分布得到明显改善，同时解决了粉尘在管道中的积聚和粒度变化问题。该研究为进一步研究 5 L 柱形容器提供了重要参考，证明其在高能粉尘爆炸实验中可实现更高的安全性和准确性。

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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来源期刊

Journal of Loss Prevention in The Process Industries 工程技术-工程：化工

CiteScore

7.20

自引率

14.30%

发文量

226

审稿时长

52 days

期刊介绍： The broad scope of the journal is process safety. Process safety is defined as the prevention and mitigation of process-related injuries and damage arising from process incidents involving fire, explosion and toxic release. Such undesired events occur in the process industries during the use, storage, manufacture, handling, and transportation of highly hazardous chemicals.