Determination of optimal reaction temperature and hydrogen amount for propylene polymerization by a mathematical model-Reference-Cited by-同舟云学术

Determination of optimal reaction temperature and hydrogen amount for propylene polymerization by a mathematical model

Published:2019 Issue:3-4 Volume:68 Page:119-127
ISSN:1334-9090
Container-title:Kemija u industriji
language:
Short-container-title:Kem. ind. (Online)

Author:

Varshouee Gholam Hossain¹,Heydarinasab Amir¹,Vaziri Ali¹,Zarand Seyed Mehdi Ghafelebashi²

Affiliation:

1. Department of Petroleum and Chemical Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran

2. Polymer Group, Research and Technology, National Petrochemical Company, Tehran, Iran

Abstract

Regarding the complexity of Ziegler-Natta catalyst kinetics in polypropylene polymerization, so far, there is no adequate model to determine the best process conditions for predicting average molecular weight and dispersity as the most crucial final product properties index. Consequently, a validated model has been developed which describes the relationship between the kinetic model and the existing gap using the polymer moment balance approach. It was concluded that increasing reaction temperature and hydrogen amount are useful and improve the final product indices to a certain limit, but afterwards they have harmful effects on the indices.

Publisher

Croatian Society of Chemical Engineers/HDKI

Subject

General Chemical Engineering,General Chemistry

Link

http://silverstripe.fkit.hr/kui/assets/Uploads/IV-119-127.pdf

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1. Determination of Catalyst Residence Time, Heat Generation, and Monomer Conversion via Process Variables during Propylene Polymerization by a Mathematical Model;Theoretical Foundations of Chemical Engineering;2021-01

2. Investigating Growth of Molecular Weight and Its Dispersity of Polypropylene during Polymerization by a Validated Mathematical Model;Theoretical Foundations of Chemical Engineering;2020-09

3. Mathematical Modeling of Propylene Polymerization with Ziegler-Natta Catalyst and Hydrogen Response Validation;IRAN J CHEM CHEM ENG;2020

4. Investigating the effect of co-catalyst on the final product properties and the yield of ziegler–natta catalyst in propylene polymerization in optimum temperature reaction in absence of hydrogen via mathematical model;SN Applied Sciences;2020-03-12

5. A Mathematical Model for Investigating the Effect of Reaction Temperature and Hydrogen Amount on the Catalyst Yield during Propylene Polymerization;Kemija u industriji;2019