计算机与应用化学
計算機與應用化學
계산궤여응용화학
COMPUTERS AND APPLIED CHEMISTRY
2009年
6期
789-793
,共5页
反应精馏%乙酸乙酯%模拟%Aspen Plus
反應精餾%乙痠乙酯%模擬%Aspen Plus
반응정류%을산을지%모의%Aspen Plus
reactive distillation%ethyl acetate%simulation%Aspen Plus
本文以Amberlyst-36Wet离子交换树脂为催化剂,采用间歇搅拌釜式反应器,在消除内外扩散影响的条件下,测得不同温度下反应速率常数.研究自制反应精馏塔中(直径25 mm,高2.2 m)乙酸乙酯的合成工艺,得到反应精馏的工艺参数.在实验基础上,建立改进工艺的Aspen Plus模拟流程图.实验结果与模拟计算值吻合良好,表明所建立的Aspen Plus模型能够很好地描述反应精馏合成乙酸乙酯过程.以乙醇转化率、产品乙酸乙酯的收率和塔顶油相乙酸乙酯的质量分率为考察目标,通过流程模拟和灵敏度分析,确定该工艺的最佳工艺参数:精馏段、反应段和提馏段的理论板数分别为9、7和7;醋酸和乙醇的最佳进料位置在第9块和第16块塔板上;回流比R为1.6.在此工艺条件下,产品乙酸乙酯的含量是95.2%(wt),乙醇转化率为96.1%.
本文以Amberlyst-36Wet離子交換樹脂為催化劑,採用間歇攪拌釜式反應器,在消除內外擴散影響的條件下,測得不同溫度下反應速率常數.研究自製反應精餾塔中(直徑25 mm,高2.2 m)乙痠乙酯的閤成工藝,得到反應精餾的工藝參數.在實驗基礎上,建立改進工藝的Aspen Plus模擬流程圖.實驗結果與模擬計算值吻閤良好,錶明所建立的Aspen Plus模型能夠很好地描述反應精餾閤成乙痠乙酯過程.以乙醇轉化率、產品乙痠乙酯的收率和塔頂油相乙痠乙酯的質量分率為攷察目標,通過流程模擬和靈敏度分析,確定該工藝的最佳工藝參數:精餾段、反應段和提餾段的理論闆數分彆為9、7和7;醋痠和乙醇的最佳進料位置在第9塊和第16塊塔闆上;迴流比R為1.6.在此工藝條件下,產品乙痠乙酯的含量是95.2%(wt),乙醇轉化率為96.1%.
본문이Amberlyst-36Wet리자교환수지위최화제,채용간헐교반부식반응기,재소제내외확산영향적조건하,측득불동온도하반응속솔상수.연구자제반응정류탑중(직경25 mm,고2.2 m)을산을지적합성공예,득도반응정류적공예삼수.재실험기출상,건립개진공예적Aspen Plus모의류정도.실험결과여모의계산치문합량호,표명소건립적Aspen Plus모형능구흔호지묘술반응정류합성을산을지과정.이을순전화솔、산품을산을지적수솔화탑정유상을산을지적질량분솔위고찰목표,통과류정모의화령민도분석,학정해공예적최가공예삼수:정류단、반응단화제류단적이론판수분별위9、7화7;작산화을순적최가진료위치재제9괴화제16괴탑판상;회류비R위1.6.재차공예조건하,산품을산을지적함량시95.2%(wt),을순전화솔위96.1%.
Excluding the influence of external and internal diffusion, the rate constant of synthesis of ethyl acetate catalyzed by Amber-lyst-36 Wet ion exchange resin in the batch reactor was determined under the different temperature, then the reactive distillation process for ethyl acetate synthesis was discussed and the process parameters were obtained. Based on the experimental results, the flow diagram of ethyl acetate synthesis was established by using Aspen Plus. Simulation results agreed well with experimental ones, which indicated that the Aspen Plus model could describe the reactive distillation process. Being conversion of ethanol, the yield of ethyl acetate, and the product purity as the indexes of investigation, the optimal process parameters were determined through simulation and sensitive a-nalysis. Theoretical stages of rectifying section, reaction section, and stripping section are 9, 7, and 7, respectively; feed stage of ace-tare acid and ethanol were 9 and 16, respectively; and reflux ration was 1.6. Under this process condition the mass fraction of ethyl ac-etate in product is 95.2% and the conversion of ethanol is 96. 1%.