化学工程
化學工程
화학공정
CHEMICAL ENGINEERING
2014年
5期
56-60
,共5页
油酸甲酯%动力学方程%油酸%酰氯化
油痠甲酯%動力學方程%油痠%酰氯化
유산갑지%동역학방정%유산%선록화
methyl oleate%kinetic equation%oleic acid%chloride
油酸甲酯是一种重要的化工原料,因现行生产工艺存在污染环境、腐蚀设备、反应转化率较低等问题,使其生产受到了一定制约,为此,提出了一种无催化“两步法”合成油酸甲酯的工艺路线。文中在“两步法”工艺路线的基础上进一步研究了油酸甲酯合成反应动力学。采用积分法分析了在293,298,303,308,313 K下的实验数据,结果表明二步反应均符合二级反应特征,反应遵循四面体机理,并得到了不同温度下的动力学方程式。根据得到的不同温度下的反应速率常数确定了二步反应的活化能分别为121.6 kJ/mol和115.2 kJ/mol,频率因子为2.76×1019和4.03×1018。在实验293-313 K温度范围内,通过实验对得到的动力学方程进行验证,得到的实验值与动力学方程计算值相符合,说明得到的动力学方程是可靠的,为“两步法”合成油酸甲酯的工业放大提供了理论依据。
油痠甲酯是一種重要的化工原料,因現行生產工藝存在汙染環境、腐蝕設備、反應轉化率較低等問題,使其生產受到瞭一定製約,為此,提齣瞭一種無催化“兩步法”閤成油痠甲酯的工藝路線。文中在“兩步法”工藝路線的基礎上進一步研究瞭油痠甲酯閤成反應動力學。採用積分法分析瞭在293,298,303,308,313 K下的實驗數據,結果錶明二步反應均符閤二級反應特徵,反應遵循四麵體機理,併得到瞭不同溫度下的動力學方程式。根據得到的不同溫度下的反應速率常數確定瞭二步反應的活化能分彆為121.6 kJ/mol和115.2 kJ/mol,頻率因子為2.76×1019和4.03×1018。在實驗293-313 K溫度範圍內,通過實驗對得到的動力學方程進行驗證,得到的實驗值與動力學方程計算值相符閤,說明得到的動力學方程是可靠的,為“兩步法”閤成油痠甲酯的工業放大提供瞭理論依據。
유산갑지시일충중요적화공원료,인현행생산공예존재오염배경、부식설비、반응전화솔교저등문제,사기생산수도료일정제약,위차,제출료일충무최화“량보법”합성유산갑지적공예로선。문중재“량보법”공예로선적기출상진일보연구료유산갑지합성반응동역학。채용적분법분석료재293,298,303,308,313 K하적실험수거,결과표명이보반응균부합이급반응특정,반응준순사면체궤리,병득도료불동온도하적동역학방정식。근거득도적불동온도하적반응속솔상수학정료이보반응적활화능분별위121.6 kJ/mol화115.2 kJ/mol,빈솔인자위2.76×1019화4.03×1018。재실험293-313 K온도범위내,통과실험대득도적동역학방정진행험증,득도적실험치여동역학방정계산치상부합,설명득도적동역학방정시가고적,위“량보법”합성유산갑지적공업방대제공료이론의거。
Methyl oleate was an important chemical material,but the production was restricted by equipment corrosion,environmental pollution and low conversion.Non-catalyst two-step method was offered to synthesize methyl oleate.Firstly,oleic acid was reacted with thionyl chloride to obtain active oleoyl chloride,followed by the alcoholysis of oleoyl chloride with methanol to obtain methyl oleate.The kinetic equations for the two reactions were established.The kinetic experiments were carried out at 293,298,303,308,313 K,respectively.The experimental data at different temperatures were analyzed by the integral method.The results show that two steps of methyl oleate synthesis are a second order reaction both and the reactions follow tetrahedral mechanism.The frequency factors are 2.76 ×1019 and 4.03 ×1018,and activation energies are 121.6 ,115.2 kJ/mol respectively for two reactions,which are obtained from the reaction rate constants at different temperatures by using the Arrhenius equation.The calculation data of the kinetic equations are in good agreement with the experimental data at 293-313 K,which shows that the kinetic equations are reliable and reasonable.It provides the basic data for the industrial development of methyl oleate.