我們建立的一個EVA的數學動力模式，並將模式應用於多區段、多個進料口的高壓聚合反應器。利用質量與能量平衡式預測出反應器中各區段的聚合速率、單體濃度、分子量相關變數(Mw…等)與溫度分布。對於品別轉換時模式模擬的情形也做了比較。整體來講我們所建立的模式能夠預測出EVA高壓反應器的行為，並可以進一步應用於反應器的設計、控制架構的建立、操作條件最佳化、產品品別轉換的研究。

A mathematical kinetic EVA model is developed to simulate the behavior of multizone, multifeed high-pressure EVA polymerization autoclave reactor. Dynamic mass and energy balance are derived to predict the polymerization rate, monomer concentration, molecular weight(Mw…etc.), and temperature profile with respect to the position in the reactor. The effects of grade transition on the EVA autoclave reactor model are investigated. It is shown that the proposed model is capable of predicting the behavior of EVA autoclaves and can be used for the process design, operating condition optimization, control strategy, and grade transition study of the EVA autoclave reactor.

第一章 緒論
第二章 理論說明
第三章 模式建立
第四章 電腦模擬及其結果與討論
第五章 結論與未來工作

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