Graft Copolymerization of Styrene and Acrylonitrile in the Presence of Poly(propylene glycol): Modeling and Simulation of Semi-Batch and Continuous Processes

Li Li; Linbo Wu; Zhiyang Bu; Cheng Gong; Bo-Geng Li; Klaus-Dieter Hungenberg

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Graft Copolymerization of Styrene and Acrylonitrile in the Presence of Poly(propylene glycol): Modeling and Simulation of Semi-Batch and Continuous Processes

机译：聚丙二醇存在下苯乙烯和丙烯腈的接枝共聚：半间歇和连续过程的建模和模拟

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An existing kinetic model for graft free-radical copolymerization of styrene (St) and acrylonitrile (AN) in the presence of poly(propylene glycol) is extended to describe the semi-batch process and to simulate the continuous process. A good predictive ability of the model for the semi-batch process is demonstrated by comparing with experimental data, except for M_w and poly-dispersity index at St/AN = 60/40 wt% in the feed. The continuous process is simulated under various reaction conditions. The solid content increases sharply with increasing monomer concentration. With decreasing St/AN weight ratio, the graft efficieny increases sharply and M_w decreases.

机译：扩展了现有的在聚丙二醇存在下苯乙烯（St）和丙烯腈（AN）的接枝自由基共聚的动力学模型，以描述半间歇过程并模拟连续过程。通过与实验数据进行比较，证明了该模型对半间歇过程的良好预测能力，除了饲料中St / AN = 60/40 wt％时的M_w和多分散指数。在各种反应条件下模拟连续过程。固体含量随着单体浓度的增加而急剧增加。随着St / AN重量比的降低，接枝效率急剧提高，M_w降低。

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来源
《Macromolecular reaction engineering 》 |2012年第10期| p.384-394| 共11页
作者
Li Li; Linbo Wu; Zhiyang Bu; Cheng Gong; Bo-Geng Li; Klaus-Dieter Hungenberg;
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Department of Chemical & Biological Engineering, State Key Laboratory of Chemical Engineering, Zhejiang University, 310027 Hangzhou, China;

Department of Chemical & Biological Engineering, State Key Laboratory of Chemical Engineering, Zhejiang University, 310027 Hangzhou, China;

Department of Chemical & Biological Engineering, State Key Laboratory of Chemical Engineering, Zhejiang University, 310027 Hangzhou, China;

Department of Chemical & Biological Engineering, State Key Laboratory of Chemical Engineering, Zhejiang University, 310027 Hangzhou, China;

Department of Chemical & Biological Engineering, State Key Laboratory of Chemical Engineering, Zhejiang University, 310027 Hangzhou, China;

Polymer Technology, BASF SE, 67056 Ludwigshafen, Germany;

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1. Graft Copolymerization of Styrene and Acrylonitrile in the Presence of Poly(propylene glycol): Kinetics and Modeling [J] . Li Li, Linbo Wu, Zhiyang Bu, Macromolecular reaction engineering . 2012 ,第9a10期

机译：聚丙二醇存在下苯乙烯和丙烯腈的接枝共聚：动力学和建模
2. Graft Copolymerization of Styrene and Acrylonitrile in the Presence of Poly(propylene glycol): Particle Growth [J] . Li Li, Linbo Wu, Zhiyang Bu, Macromolecular reaction engineering . 2012 ,第9a10期

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3. Effect of the addition of acrylonitrile/ethylene-propylene-diene monomer (EPDM)/styrene graft copolymer on the morphology-properties relationships in poly(styrene-co-acrylonitrile)/EPDM rubber blends [J] . Qu XW., Shang SR., Liu GD., Journal of Applied Polymer Science . 2004 ,第3期

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4. Preparation of Acrylonitrile-Butadiene- Styrene Resin with High Performances by Bi-seeded Emulsion Grafting Copolymerization [C] . Gongsheng Li, Shulai Lu, Jianxun Pang PMSE Symposia . 2012

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5. Vibrational overtone initiated polymerization of ethylene glycol dimethacrylate and acrylonitrile, vibrational overtone initiated copolymerization of styrene/trimethylolpropane propoxylate triacrylate. [D] . Gu, Hua. 2003

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8. Impact Modification of Styrene-Acrylonitrile Copolymers by Methyl Methacrylate Grafted Rubbers. [R] . Keskkula, H., Kim, H., Paul, D. R. 1990

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Graft Copolymerization of Styrene and Acrylonitrile in the Presence of Poly(propylene glycol): Modeling and Simulation of Semi-Batch and Continuous Processes

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