Simulation and optimization of structured packing replacement in absorption column of natural gas dehydration unit using triethylene glycol (TEG)

机译：三乙二醇（TEG）仿真和优化天然气脱水装置吸收塔的结构化包装替代

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Natural gas dehydration is an important process in the gas processing. In this process, water vapor is removed from natural gas streams since it can cause some problems in the next process. Application of structured packing in separation processes like natural gas dehydration has been increased since last few years. In this work, a domestic natural gas dehydration unit using triethylene glycol (TEG) was simulated. Predictive Redlich-Kwong-Soave (PSRK) equation of state was applied in the simulation. The existing tray column was replaced by structured packing and then was optimized. The results show that by replacing tray column with packed bed column can reduce the size of the column and also reduce the total annual cost (TAC) of the natural gas dehydration unit.

机译：天然气脱水是气体加工中的重要过程。在该过程中，从天然气流中除去水蒸气，因为它会导致下一个过程中的一些问题。自上年以来，在天然气脱水等分离过程中的应用在分离过程中的应用已经增加。在这项工作中，模拟了一种使用三甘醇（TEG）的国内天然气脱水单元。预测redlich-kwong-soave（psrk）状态在模拟中应用了状态。现有的托盘柱被结构化包装所取代，然后优化。结果表明，通过用填充床柱更换托盘柱可以减小柱的尺寸，并降低天然气脱水单位的总年度成本（TAC）。

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《International Symposium on Advanced Control of Industrial Processes》|2017年|647p|共7页
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Sony Ardian Affandy; Renanto; Juwari; I-Lung Chien;
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中图分类 TP27-53;
关键词
Natural gas; Absorption; Optimization; Water heating; Predictive models; Chemical engineering;

机译：天然气;吸收;优化;水加热;预测模型;化学工程;

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1. Simulation and feasibility analysis of structured packing replacement in absorption column of natural gas dehydration process: A case study for Farashband gas processing plant, Iran [J] . Seyyed Mohammad Jokar, Hamid Reza Rahimpour, Hossein Momeni Journal of natural gas science and engineering . 2014,第Null期

机译：天然气脱水过程吸收塔中规整填料置换的模拟和可行性分析：以伊朗法拉什邦德天然气处理厂为例
2. Estimation of triethylene glycol (TEG) purity in natural gas dehydration units using fuzzy neural network [J] . Mohammad M. Ghiasi, Alireza Bahadori, Sohrab Zendehboudi Journal of natural gas science and engineering . 2014,第Null期

机译：用模糊神经网络估算天然气脱水装置中三甘醇（TEG）的纯度
3. Simulation and Optimization of the Utilization of Triethylene Glycol in a Natural Gas Dehydration Process [J] . Zykamilia Kamin, Awang Bono, Lek Yan Leong Chemical Product and Process Modeling . 2017,第4期

机译：天然气脱水过程中三乙二醇利用的仿真与优化
4. Simulation and optimization of structured packing replacement in absorption column of natural gas dehydration unit using triethylene glycol (TEG) [C] . Sony Ardian Affandy, Renanto, Juwari, 2017 6th International Symposium on Advanced Control of Industrial Processes . 2017

机译：用三甘醇（TEG）模拟和优化天然气脱水装置吸收塔结构填料的更换
5. Experimental and theoretical investigation of natural gas hydrates in the presence of methanol, ethylene glycol, diethylene glycol and triethylene glycol [D] . Mahmoodaghdam, Elham 2001

机译：在甲醇，乙二醇，二甘醇和三甘醇存在下天然气水合物的实验和理论研究
6. Structure of poly(ethylene glycol)-modified horseradish peroxidase in organic solvents: infrared amide I spectral changes upon protein dehydration are largely caused by protein structural changes and not by water removal per se. [O] . Wasfi Al-Azzam, Emil A Pastrana, Yancy Ferrer, 2002

机译：有机溶剂中聚乙二醇修饰的辣根过氧化物酶的结构：蛋白质脱水后的红外酰胺I光谱变化在很大程度上是由蛋白质结构变化引起的而不是由本身的水分去除引起的。
7. OPTIMIZATION OF TRIETHYLENE GLYCOL (TEG) DEHYDRATION IN A NATURAL GAS PROCESSING PLANT [O] . Nmegbu Chukwuma Godwin Jacob . 2014

机译：天然气加工厂三乙二醇（TEG）脱水的优化
8. Methane Emissions from the Natural Gas Industry. Volume 14. Glycol Dehydrators [R] . Myers, D. 1996

机译：天然气工业的甲烷排放。第14卷。乙二醇脱水剂

Simulation and optimization of structured packing replacement in absorption column of natural gas dehydration unit using triethylene glycol (TEG)

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