CARBON NANOMATERIAL PRODUCTION FROM PRODUCTS OF METHANE-AIR CONVERSION WITH SPENT GASES RECIRCULATION

Energy Technologies & Resource Saving Pub Date : 2018-12-19 DOI:10.33070/ETARS.4.2018.05

V. Kotov, A. Nebesniy, M. Svyatenko, A. Khovavko, D. Filonenko

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Abstract

The possibility of increasing of a specific yield of carbon nanomaterial from the products of methane-air conversion through the use of spent gases recirculation is considered. The analysis of the influence of water vapor and carbon dioxide contained in the recirculated gases on the methane conversion has been performed. According to the developed calculation method, the assessment of changes in the main parameters of carbon material synthesis was done. Evaluation was performed depending on the degree of recirculation of spent gases in the transition and steady-state periods of the process. It is shown that the use of gas recirculation increases the specific yield of the carbon material, but in this case, due to the accumulation of nitrogen in the gas phase, there is a decrease in the productivity of the process for the resulting product. The evaluation of the productivity enhancing by rising of the gases pressure in the system was made. It has been established that in order to increase the specific yield of carbon material, the obtained converted gas and reusable recirculated gas should be subjected to deep purification from water vapor. Bibl. 16, Fig. 6, Tab. 2.

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利用废气再循环的甲烷-空气转化产物生产碳纳米材料

通过利用废气再循环，考虑了从甲烷-空气转化产物中增加碳纳米材料特定产率的可能性。分析了再循环气体中水蒸气和二氧化碳对甲烷转化的影响。根据开发的计算方法，对碳材料合成过程中主要参数的变化进行了评价。评估是根据过程的过渡和稳态期间废气体的再循环程度进行的。结果表明，气体再循环的使用增加了碳材料的比产率，但在这种情况下，由于氮气在气相中的积累，导致该工艺对所得产品的生产率降低。对提高系统内气体压力对生产效率的提高进行了评价。为了提高碳材料的比产率，得到的转化气和可重复使用的再循环气必须经过水蒸气的深度净化。圣经16，图6，表2。

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Energy Technologies & Resource Saving

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