催化裂化干气芳构化反应热力学分析
최화열화간기방구화반응열역학분석
Thermodynamic analysis of aromatization reaction of the FCC dry gas
  • 万方数据
    石油化工应用 석유화공응용
    PETROCHEMICAL INDUSTRY APPLICATION
    2012年 7期 88-91 ,共4页

    俞安平%李治

    유안평%리치

    FCC干气%芳构化%热力学%利用 FCC榦氣%芳構化%熱力學%利用
    FCC간기%방구화%열역학%이용
    FCC dry gas%aromatization%thermodynamic%utilization
    在100mL固定床实验装置上,考察了反应条件对催化裂化(FCC)干气芳构化反应的影响并对反应过程进行了热力学计算。结果表明:在优化反应条件下,FCC干气芳构化能得到(占乙烯进料)60%~70%的高辛烷值汽油调合组分,每摩尔进料的反应放热量为10.41kJ,绝热温升为169.72℃。
    재100mL고정상실험장치상,고찰료반응조건대최화열화(FCC)간기방구화반응적영향병대반응과정진행료열역학계산。결과표명:재우화반응조건하,FCC간기방구화능득도(점을희진료)60%~70%적고신완치기유조합조분,매마이진료적반응방열량위10.41kJ,절열온승위169.72℃。
    the influence of the FCC dry gas aromatization reaction was investigated on a 100 mL fixed bed apparatus and the thermodynamic calculations was carried out. The results show that:The yield of the high-octane gasoline blending components was over 60 % (equivalent to ethylene feed) under the optimize reaction conditions, reaction heat release was 10.41 kJ/ mol, adiabatic temperature rise was 169.72 ℃.
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