Prediction of Water-atmospheric Residue Phase Equilibria Based on Detailed Structure Analysis for Developing High Temperature and High Pressure Water Upgrading Processes

Sato Soma; Iwasaki Ryosuke; Sugimoto Yuta; Ota Masaki; Sato Yoshiyuki; Inomata Hiroshi; Teratani Shogo

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Prediction of Water-atmospheric Residue Phase Equilibria Based on Detailed Structure Analysis for Developing High Temperature and High Pressure Water Upgrading Processes

机译：基于详细结构分析的高温高压水升级工艺预测水大气残留相平衡

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Atmospheric residue fractions were characterized based on detailed structure analysis data obtained from petroleomics. The physical properties of each fraction were analyzed by applying the estimation method with molecular weight and specific gravity (Method 1) and by applying the group-contribution estimation method with the molecular structure data (Method 2). Vapor-liquid equilibria (VLE) for water + atmospheric residue (AR) systems were measured at 603-643 K and 2.0-10.2 MPa with a flow type apparatus and predicted using the Peng-Robinson equation. Average absolute relative deviations of predicted water content in the liquid phase were 25.4 % for Method 1 and 9.9 % for Method 2, suggesting that the group-contribution estimation method is more reliable.

机译：基于从石油组织获得的详细结构分析数据，表征了大气残留级分。通过用分子量和比重（方法1）施加估计方法来分析各部分的物理性质，并通过用分子结构数据施加基团贡献估计方法（方法2）。用于水+大气残留（AR）系统的蒸汽液体平衡（VLE）在603-643K和2.0-10.2MPa下测量，具有流式型装置，并使用PENG-Robinson方程预测。方法2的方法1和9.9％的预测水含量的平均绝对相对偏差为25.4％，方法2的方法2，表明组贡献估计方法更可靠。

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来源
《Journal of the Japan Petroleum Institute》 |2018年第5期|共7页
作者
Sato Soma; Iwasaki Ryosuke; Sugimoto Yuta; Ota Masaki; Sato Yoshiyuki; Inomata Hiroshi; Teratani Shogo;
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作者单位

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Tohoku Univ Dept Chem Engn Res Ctr Supercrit Fluid Technol Aoba Ku 6-6-11-403 Aoba Sendai Miyagi 9808579 Japan;

Japan Petr Energy Ctr Minato Ku 2-11-1 Shibakouen Tokyo 1050011 Japan;

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正文语种 jpn
中图分类石油、天然气加工工业;
关键词
Subcritical water; Heavy oil; Characterization; Phase equilibrium prediction; Equation of state;

机译：亚临界水;重油;表征;相平衡预测;状态方程;

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1. Prediction of Water-atmospheric Residue Phase Equilibria Based on Detailed Structure Analysis for Developing High Temperature and High Pressure Water Upgrading Processes [J] . Sato Soma, Iwasaki Ryosuke, Sugimoto Yuta, Journal of the Japan Petroleum Institute . 2018,第5期

机译：基于详细结构分析的高温高压水升级工艺预测水大气残留相平衡
2. PREDICTION OF THE SOLUBILITY AND GAS-LIQUID EQUILIBRIA FOR GAS-WATER AND LIGHT HYDROCARBON-WATER SYSTEMS AT HIGH TEMPERATURES AND PRESSURES WITH A GROUP CONTRIBUTION EQUATION OF STATE [J] . Li JD., Ye SY., Carrier H., Fluid Phase Equilibria . 1997,第1a2期

机译：具有状态群贡献方程的高温高压气水和轻烃水系统的溶解度和气液平衡预测
3. Measurement and Prediction of Liquid-Liquid Equilibria for Water + Hexane + Hexadecane, Water + Toluene + Decane, and Water + Toluene + Ethylbenzene Ternary Systems at High Temperature and Pressures [J] . Yusuke Shimoyama, Masashi Haruki, Yoshio Iwai, Journal of Chemical and Engineering Data: the ACS Journal for Data . 2002,第5期

机译：高温和高压下水+己烷+十六烷，水+甲苯+癸烷和水+甲苯+乙苯三元体系液-液平衡的测量和预测
4. MEASUREMENT AND CORRELATION OF PHASE EQUILIBRIA FOR WATER + 2-PROPANOL + ALKANE TERNARY SYSTEMS AT HIGH TEMPERATURES AND PRESSURES [C] . Yusuke Shimoyama, Yoshio Iwai, Ichiro Shinkai, International Symposium on Supercritical Fluids Tome 2: SCF Properties Reactions; 20030428-20030430; Versailles; FR . 2003

机译：高温高压下水+ 2-丙醇+烷烃三元体系相平衡的测量和相关
5. Phase equilibria of hydrocarbon-water mixtures at elevated temperatures and pressures. [D] . Christensen, Scott Patrick. 1990

机译：高温高压下烃-水混合物的相平衡。
6. Transformation of BCC and B2 High Temperature Phases to HCP and Orthorhombic Structures in the Ti-Al-Nb System. Part I: Microstructural Predictions Based on a Subgroup Relation Between Phases [O] . L. A. Bendersky, A. Roytburd, W. J. Boettinger 1993

机译：Ti-Al-Nb系统中BCC和B2高温相向HCP和正交晶结构的转变。第一部分：基于相之间子组关系的微观结构预测
7. Prediction of Water-atmospheric Residue Phase Equilibria Based on Detailed Structure Analysis for Developing High Temperature and High Pressure Water Upgrading Processes [O] . Soma Sato, Ryosuke Iwasaki, Yuta Sugimoto, 2018

机译：基于详细结构分析的高温和高压水升级过程预测水大气压相平衡

Prediction of Water-atmospheric Residue Phase Equilibria Based on Detailed Structure Analysis for Developing High Temperature and High Pressure Water Upgrading Processes

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