With the industrial application of syngas, the explosion accident caused by it has gradually become a topic of concern for researchers. In this paper, the effects of CO2 addition on the deflagration characteristics of syngas-air premixed mixtures were investigated through experiments and numerical simulations. Experiments were carried out inside a T-pipeline, using a high-speed camera and a pressure sensor to simultaneously record the flame evolution and pressure dynamics during deflagration. Simulations were calculated using the GRI 3.0 mechanism by Chemkin Premix Code. The results show that the addition of CO2 has a certain inhibitory effect on the flame propagation, which can make the finger flame in the vertical pipe evolve into a "tulip" flame. And under the inhibition of CO2, the deflagration overpressure of the mixture is reduced, and the number of H, O, OH radicals is also greatly reduced, and the chemical reaction rate is correspondingly slowed down.(c) 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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机译:随着合成气的工业应用,由此引发的爆炸事故逐渐成为研究者关注的话题。本文通过实验和数值模拟,研究了CO2添加对合成气-空气预混混合物爆燃特性的影响。实验在T型管道内进行,使用高速摄像机和压力传感器同时记录爆燃过程中的火焰演变和压力动力学。仿真结果采用GRI 3.0机制,通过Chemkin Premix Code进行计算。结果表明,CO2的加入对火焰传播有一定的抑制作用,可使垂直管道中的手指火焰演变成“郁金香”火焰。而在CO2的抑制下,混合物的爆燃超压降低,H、O、OH自由基的数量也大大减少,化学反应速率也相应减慢。(c) 2022 Hydrogen Energy Publications LLC.,由爱思唯尔有限公司出版。保留所有权利。
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