硫化氢含量和过量空气对含硫气体火炬中污染物排放的影响

Ahmed Zoeir, Alireza Tabatabaei Nejad, E. Khodapanah
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引用次数: 3

摘要

在含硫气体火炬中,与进口气体中的其他成分一样,其含量也会影响绝热火焰温度,从而影响污染物的排放。当火焰温度升高时,两者之间的吸热反应加速,这意味着向大气的排放量增加。在这项工作中,我们开发了一个内部MATLAB代码,为燃烧计算提供了一个环境。然后,将编写的代码用于对含硫气体火炬的含量、空气温度和过量空气比进行灵敏度分析。利用美国环境保护署(EPA)的报告,根据空气污染物对环境的危害程度为其分配权重指标;之后,针对Ahwaz (AMAK)和South Pars这两个实际现场案例,优化了含硫气的燃除条件,以达到最低的综合污染物浓度。结果表明,进料含量每增加2%,排气量就会增加0.3%。结果还证实,当氧化剂温度降低20°F和50°F时,排放分别降低0.5% ~ 1%。最后,为了验证和验证我们从编写的MATLAB代码中获得的结果,使用FRNC 2012工业软件复制两个酸性火炬案例研究的氧化结果。
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Impact of H2S Content and Excess Air on Pollutant Emission in Sour Gas Flares
In sour gas flares,  content like any other components in inlet gas influences adiabatic flame temperature, which, in turn, impacts on the pollutant emission. Wherever flame temperature increases, the endothermic reaction between  and  is accelerated, which means higher  emission to the atmosphere. In this work, we developed an in-house MATLAB code to provide an environment for combustion calculations. Then, this written code was used to perform sensitivity analyses on  content, air temperature, and excess air ratio in sour gas flares. We used Environmental Protection Agency (EPA) reports to assign weighting indexes to each air contaminant according to its harmfulness to environment; thereafter, sour gas flaring conditions were optimized for two real field case studies, namely Ahwaz (AMAK) and South Pars, to reach the minimum integrated pollutant concentrations. The results show that each 2% increase in the  content of the entrance feed may produce 0.3% additional  in the exhaust. The results also confirm that decreases of 20 °F and 50 °F in the oxidant temperature cause  emission to reduce by 0.5% to 1% respectively. Finally, to verify and validate our results acquired from the written MATLAB code, FRNC 2012 industrial software was used to duplicate the oxidation results for the two sour flare case studies.
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