GENERALIZED MATHEMATICAL MODEL OF HYDRATE FORMATION IN GAS PIPELINES

Bondarev E. A.; Rozhin I. I.; Argunova K. K.

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GENERALIZED MATHEMATICAL MODEL OF HYDRATE FORMATION IN GAS PIPELINES

机译：气体管道水合物形成的广义数学模型

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A numerical experiment has been carried out to study the influence of the change in the main pipeline cross-section due to hydrate formation on hydraulic resistance and the temperature and pressure dynamics taking into account quasi-stationary heat transfer with permafrost ground. The case where a wet gas is supplied to the pipeline is considered, and the dynamics of hydrate formation is determined along with other parameters. The calculations are carried out until the outlet pressure becomes lower than the standard one. The results of the experiment show that a model assuming a constant hydraulic resistance coefficient leads to a significant underestimation of the allowable pipeline operation time. Consequently, in mathematical modeling of hydrate formation in natural gas pipelines taking into account the relationship between heat transfer and viscous friction is critical.

机译：已经进行了数值实验，以研究主要管道横截面变化的影响因液压抗力和温度和压力动力学的水合物形成，考虑到多年固定地面。考虑将湿气供应到管道的情况，并与其他参数一起确定水合物形成的动态。进行计算，直到出口压力变得低于标准。实验结果表明，假设恒定液压电阻系数的模型导致允许管道操作时间的显着低估。因此，在天然气管道中的水合物形成的数学建模中，考虑到传热和粘性摩擦之间的关系至关重要。

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来源
《Journal of Applied Mechanics and Technical Physics》 |2019年第3期|503-509|共7页
作者
Bondarev E. A.; Rozhin I. I.; Argunova K. K.;
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作者单位

Russian Acad Sci Siberian Branch Inst Oil & Gas Problems Yakutsk 677980 Russia;

Russian Acad Sci Siberian Branch Inst Oil & Gas Problems Yakutsk 677980 Russia;

Russian Acad Sci Siberian Branch Inst Oil & Gas Problems Yakutsk 677980 Russia;

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正文语种 eng
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关键词
conjugate heat-transfer problems; pipeline transport of natural gas; natural gas hydrates;

机译：共轭传热问题;天然气管道运输;天然气水合物;

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1. Mathematical Modeling and Simulation of Hydrate Formation Conditions in Nigerian Oil and Gas Pipelines [J] . Kovo AS, Garba MU Journal of Dispersion Science and Technology . 2009,第10期

机译：尼日利亚油气管道中水合物形成条件的数学建模与模拟
2. Mathematical Modeling and Simulation of Hydrate Formation Conditions in Nigerian Oil and Gas Pipelines [J] . A. S. Kovo, M. U. Garba Journal of Dispersion Science and Technology . 2009,第10期

机译：尼日利亚油气管道中水合物形成条件的数学建模与模拟
3. MATHEMATICAL MODEL OF NATURAL GAS FLOW IN PIPELINES WITH ALLOWANCE FOR THE DISSOCIATION OF GAS HYDRATES [J] . V. Sh. Shagapov, N. G. Musakaev, R. R. Urazov Journal of engineering physics and thermophysics . 2008,第2期

机译：允许天然气水合物分解的管道中天然气流动的数学模型
4. Mathematical Model of Energy Storage in Gas Hydrate and its Flow in Pipeline Systems [C] . Oluwatoyin Akinsete, Sunday Isehunwa SPE/AAPG Africa Energy and Technology Conference . 2016

机译：水水合物能量储存数学模型及其在管道系统中的流动
5. Experimental Investigation and Modeling of Gas Hydrate Formation in High Water Cut Producing Oil Pipelines [D] . Joshi, Sanjeev 2012

机译：高含水油田输油管道中天然气水合物形成的实验研究与建模
6. An Integrated Pipeline for Combining in vitro Data and Mathematical Models Using a Bayesian Parameter Inference Approach to Characterize Spatio-temporal Chemokine Gradient Formation [O] . Dimitris I. Kalogiros, Matthew J. Russell, Willy V. Bonneuil, -1

机译：贝叶斯参数推断方法结合时空趋化因子梯度形成特征的体外数据和数学模型相结合的集成管道。
7. Implementation of Virtual Reality Model for Offshore Gas Field Platform and Evaluation of Gas Hydrate Formation for Subsea Production Pipeline using AI [O] . Sangyup Jang, Byoungjun Kim, Heesung Yoon, 2021

机译：近海天然气场平台虚拟现实模型的实现及利用AI对海底生产管道的天然气水合物形成评价
8. Kinetics of Gas Hydrate Formation. Part I: Kinetics of Ethane Gas Hydrate Formation. Part II: Kinetics of Natural Gas Hydrate Formation [R] . Bishnoi, P. R. , Vysniauskas, A. 1980

机译：天然气水合物生成动力学。第一部分：乙烷气体水合物生成动力学。第二部分：天然气水合物生成动力学

GENERALIZED MATHEMATICAL MODEL OF HYDRATE FORMATION IN GAS PIPELINES

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