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Experimental Study of the Effect of Intensifier Gases on the Kinetics of the Methane Replacement Process with Carbon Dioxide in Gas Hydrate

机译：增强剂气体对甲烷替代工艺动力学效果的实验研究 - 天然气水合物二氧化碳

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It is known that the technology of developing gas hydrate fields withthe usage of the replacement process is the most perspective from thepoint of view of process energy consumption (Xiao-Hui Wang, 2017,Oveckiy, 2016). The replacement process is extremely long. (Voronov,2013). The replacement models for CO2/N2 injection into theCH4/HYDRATE system were studied in article of Kvamme (2015) andLim (2017) et. t. The distinctive features of the study are theexperimentation in the CO2/HYDRATE and CO2/N2/HYDRATEsystem at low pressures, as well as the use of substitution substances inthe gaseous phase. The article presents experimental data on thesimulation of the gas hydrate formation in a porous structure and thereplacement of methane in hydrate by CO2. The results of gas amountcalculations converted to hydrate are presented.

机译：众所周知，用来发展天然气水合物田的技术替换过程的使用是最透视的工艺能源消耗的观点（萧辉王，2017年，Oveckiy，2016）。更换过程非常长。（沃罗诺夫，2013）。 CO2 / N2注入的替换模型在Kvamme（2015）的文章中研究了CH4 /水合物系统林（2017）等。 T。这项研究的独特特征是CO2 /水合物和CO2 / N 2 /水合物的实验压力低压，以及使用替代物质气相。本文提出了实验数据仿真多孔结构中的天然气水合物形成用CO2替换水合物中的甲烷。气体量的结果提出了转化为水合物的计算。

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《International ocean and polar engineering conference》|2018年|1 CD-ROM|共5页
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Pavel I. Osmolovskiy; Iurii M. Em; Ivan V. Zemchenko; Anton A. Pichugov; Alexsander N. Gulkov;
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1. Experimental Study of Methane Replacement in Gas Hydrate by Carbon Dioxide [J] . V. P. Voronov, E. E. Gorodetskii, A. R. Muratov The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2010,第38期

机译：用二氧化碳替代天然气水合物中甲烷的实验研究
2. Microsecond simulation study on the replacement of methane in methane hydrate by carbon dioxide, nitrogen, and carbon dioxide-nitrogen mixtures [J] . Matsui Hiroki, Jia Jihui, Tsuji Takeshi, Fuel . 2020,第Mara1期

机译：微秒模拟研究用二氧化碳，氮气和二氧化碳-氮气混合物替代甲烷水合物中的甲烷
3. Kinetics of Methane Hydrate Replacement with Carbon Dioxide and Nitrogen Gas Mixture Using in Situ NMR Spectroscopy [J] . Minjun Cha, Kyuchul Shin, Huen Lee, Environmental Science & Technology . 2015,第3期

机译：用原位NMR光谱法测定二氧化碳和氮气混合气体置换甲烷水合物的动力学
4. Experimental Study of the Effect of Intensifier Gases on the Kinetics of the Methane Replacement Process with Carbon Dioxide in Gas Hydrate [C] . Pavel I. Osmolovskiy, Iurii M. Em, Ivan V. Zemchenko, International ocean and polar engineering conference;International Society of Offshore and Polar Engineers . 2018

机译：增压气体对天然气水合物中二氧化碳置换甲烷过程动力学的实验研究
5. Kinetics of gas hydrate formation from methane, carbon dioxide and their mixtures [D] . Malegaonkar, Mahendra B. 1996

机译：由甲烷，二氧化碳及其混合物形成天然气水合物的动力学
6. Kinetic Behavior of Quaternary Ammonium Hydroxides in Mixed Methane and Carbon Dioxide Hydrates [O] . Muhammad Saad Khan, Cornelius Borecho Bavoh, Khor Siak Foo, 2021

机译：混合甲烷和二氧化碳水合物季铵氢氧化物的动力学行为
7. Mathematical model of the methane replacement by carbon dioxide in the gas hydrate reservoir taking into account the diffusion kinetics [O] . N. G. Musakaev, M. K. Khasanov, G. R. Rafikova 2018

机译：煤气水合物储层中二氧化碳替代的数学模型考虑到扩散动力学

Experimental Study of the Effect of Intensifier Gases on the Kinetics of the Methane Replacement Process with Carbon Dioxide in Gas Hydrate

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