Dynamic simulation of high-pressure tubular reactor for low-density polyethylene production (CROSBI ID 196205)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Jović, Franjo ; Grašovec, Marko ; Dejanović, Igor ; Kosar, Vanja
engleski
Dynamic simulation of high-pressure tubular reactor for low-density polyethylene production
Low-density polyethylene, one of the most important polymer products, is commonly produced in high-pressure free radical polymerization processes. A dynamic model of the high-pressure polymerization of ethylene initiated by oxygen in tubular reactor is introduced, and a dynamic optimization problem is formulated for process start-up strategies. The present study proposes a kinetic model based on an assumed reaction mechanism. The model describes the rates of oxygen decomposition and propagation of free radical ethylene polymerization. The mass and heat balance equations in an adiabatic tubular reactor operated at a constant pressure of 2.4 kbars and a temperature range of 110–300°C are presented. Simulations of polymerization process predict temperature of the reaction mixture, response time for cooling water, and also conversion along the reactor length. Response time was obtained using different inputs of controlled variables. Values obtained from these simulations are compared with real data from the process unit (Polietilen, Dioki®, Zagreb, Croatia) and a model validation is confirmed. Improvement in reactor productivity and better understanding of few different start-up procedures is achieved.
LDPE reactor ; dynamic modelling ; start-up
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Podaci o izdanju
48 (8)
2014.
737-746
objavljeno
0095-2443
1530-8006
10.1177/0095244313489904