GC-MS used in study on the mechanism of the viscosity reduction of heavy oil through aquathermolysis catalyzed by aromatic sulfonic H_3PMo_(12)O_(40)

Yanling Chen; Jing He; Yuanqing Wang; Pei Li

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GC-MS used in study on the mechanism of the viscosity reduction of heavy oil through aquathermolysis catalyzed by aromatic sulfonic H_3PMo_(12)O_(40)

机译：GC-MS用于芳族磺酸H_3PMo_（12）O_（40）催化水热分解降低稠油粘度的机理

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We used GC/MS assisted with elemental analysis to compare the organic compounds in oil, water and gas phases before and after the reaction, and finally deduced the mechanism of the viscosity reduction of heavy oil through catalytic aquathermolysis. The results indicated that the catalyst could not only break the C-C bond, but also rupture the C-O bond in the heavy compounds. These changes eventually led to the viscosity reduction. In this work, a new kind of catalyst aromatic sulfonic H_3PMo_(12)O_(40) was firstly synthesized and used to evaluate the viscosity reduction of heavy oil through catalytic aquathermolysis.

机译：我们使用GC / MS辅助元素分析比较了反应前后油，水和气相中的有机化合物，并最终推导了催化水热解法降低重油粘度的机理。结果表明，该催化剂不仅可以破坏C-C键，而且可以破坏重化合物中的C-O键。这些变化最终导致粘度降低。本工作首先合成了一种新型的催化剂芳族磺酸H_3PMo_（12）O_（40），并用于评价催化水热解法降低稠油的粘度。

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来源
《Energy》 |2010年第8期|P.3454-3460|共7页
作者
Yanling Chen; Jing He; Yuanqing Wang; Pei Li;
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作者单位

Faculty of Materials Science and Chemical Engineering, China University of Geosciences, Wuhan 430074, PR China;

The Faculty of Resources, China University of Ceosciences, Wuhan 430074, PR China;

rnFaculty of Materials Science and Chemical Engineering, China University of Geosciences, Wuhan 430074, PR China;

rnFaculty of Materials Science and Chemical Engineering, China University of Geosciences, Wuhan 430074, PR China;

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正文语种 eng
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关键词
aromatic sulfonic H_3PMo_(12)O_4; GC/MS; C-O bond;

机译：芳族磺酸H_3PMo_（12）O_4;GC / MS;C-O键;

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1. The viscosity reduction of nano-keggin-K_3PMo_(12)O_(40) in catalytic aquathermolysis of heavy oil [J] . Yanling Chen, Yuanqing Wang, Jiangyi Lu, Fuel . 2009,第8期

机译：纳米凯金-K_3PMo_（12）O_（40）在重油催化水热解中的粘度降低
2. Synthesis and Characterization of H_3PW_(12)O_(40) and H_3PMo_(12)O_(40) Nanoparticles by a Simple Method [J] . Jaber Javidi, Mohsen Esmaeilpour, Zahra Rahiminezhad, Journal of cluster science . 2014,第6期

机译：H_3PW_（12）O_（40）和H_3PMo_（12）O_（40）纳米粒子的合成与表征
3. H_3PMo_(12)O_(40)/Agroindustry Waste Activated Carbon-Catalyzed Esterification of Lauric Acid with Methanol: A Renewable Catalytic Support [J] . Prado Roberta Gomes, Bianchi Maria Lucia, da Mota Estella Gaspar, Waste and biomass valorization . 2018,第4期

机译：H_3PMo_（12）O_（40）/农用工业废料活性炭催化的月桂酸与甲醇的酯化反应：可再生的催化载体
4. Upgrade and Viscosity Reduction of Extra-Heavy Oils by Aquathermolysis [C] . Zhong Luo, Hongyi Liu, Fei Wang, World Heavy Oil Conference;WHOC . 2006

机译：水热解法提高超重油的粘度并降低粘度
5. Characterization of asphaltene molecular structures by cracking under hydrogenation conditions and prediction of the viscosity reduction from visbreaking of heavy oils. [D] . Rueda Velasquez, Rosa Imelda. 2013

机译：通过在氢化条件下裂解来表征沥青质分子结构，并预测由于稠油的减粘裂化而导致的粘度降低。
6. Mechanisms of Enzyme-Catalyzed Reduction of Two Carcinogenic Nitro-Aromatics 3-Nitrobenzanthrone and Aristolochic Acid I: Experimental and Theoretical Approaches [O] . Marie Stiborová, Eva Frei, Heinz H. Schmeiser, 2014

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7. Viscosity Reduction of Heavy Oil Using Nanocatalyst in Aquathermolysis Reaction [O] . Ferry Iskandar, Erlandy Dwinanto, Mikrajuddin Abdullah, 2016

机译：用纳米催化剂在Aquathermolys反应中使用纳米催化剂的粘度降低
8. Application of Microbial Processes to Viscosity Reduction of Heavy Crude Oil: Final Report [R] . Finnerty, W. R. 1987

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GC-MS used in study on the mechanism of the viscosity reduction of heavy oil through aquathermolysis catalyzed by aromatic sulfonic H_3PMo_(12)O_(40)

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