连续相变的加氢反应器被引量：1

FIXED-BED HYDROGENATION WITH CONTINUOUS PHASE TRANSITION

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摘要 A new hydrogenation method was introduced in an adiabatic fixed-bed reactor with gas and liquid upflow cocurrently. Three reaction regimes, i.e., liquid phase regime, mixed phase regime and gas phase regime were observed in the bed through regulating the operating conditions. Hydrogenation of benzene to cyclohexane over palladium catalyst was used as the model reaction. The effects of hydrogen flow rate, liquid flow rate, feed temperature and pressure on the flow regime were studied. For exothermic reactions, a small increase in reaction temperature can lead to a large increase in reaction rate due to Arrhenius temperature dependence of rate constant .The increased reaction rate results in more heat generation which further increases reaction temperature, this may results in reactor runaway. In this work, we propose that it is possible to obtain effective temperature control by using a fixed-bed reactor with cocurrent upflow of the reagents. The reaction heat evolved is absorbed by evaporation of the liquid phase. The experiments showed that the conversion of benzene in the reactor with this new kind of operation could reach almost 100%, and the risk due to hot spots appearance may also be avoided. A new hydrogenation method was introduced in an adiabatic fixed-bed reactor with gas and liquid upflow cocurrently. Three reaction regimes, i.e., liquid phase regime, mixed phase regime and gas phase regime were observed in the bed through regulating the operating conditions. Hydrogenation of benzene to cyclohexane over palladium catalyst was used as the model reaction. The effects of hydrogen flow rate, liquid flow rate, feed temperature and pressure on the flow regime were studied. For exothermic reactions, a small increase in reaction temperature can lead to a large increase in reaction rate due to Arrhenius temperature dependence of rate constant .The increased reaction rate results in more heat generation which further increases reaction temperature, this may results in reactor runaway. In this work, we propose that it is possible to obtain effective temperature control by using a fixed-bed reactor with cocurrent upflow of the reagents. The reaction heat evolved is absorbed by evaporation of the liquid phase. The experiments showed that the conversion of benzene in the reactor with this new kind of operation could reach almost 100%, and the risk due to hot spots appearance may also be avoided.

作者胡劲松程振民 A.M.Anter 戴迎春袁渭康

机构地区华东理工大学联合化学反应工程研究所

出处《化工学报》 EI CAS CSCD 北大核心 2000年第6期803-805,共3页 CIESC Journal

基金上海市科委新材料中心和中国石化集团公司资助

关键词苯加氢连续相变加氢反应器固定床环己烷 benzene, hydrogenation, multiphase reaction,continuous phase transition

分类号 TQ052 [化学工程] TQ231.14 [化学工程—有机化工]

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参考文献1

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共引文献7

1龚全安,赵承军.磁稳定床研究进展[J].河北化工,2005,28(5):11-13. 被引量：3
2曾平,周涛,陈冠群,葛志强.磁场流化床的研究与应用[J].化工进展,2006,25(4):371-377. 被引量：8
3宗保宁.非晶态合金催化剂和磁稳定床反应工艺在石油化工技术中的推广应用[J].催化学报,2008,29(9):873-877. 被引量：11
4谢文华,宗保宁.磁性催化剂与磁稳定床反应器[J].化学进展,2009,21(11):2474-2482. 被引量：9
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6程振民,袁渭康.伴有连续相态变化的反应系统——一种适用于放热气-液-固反应的操作模式[J].石油学报（石油加工）,2002,18(5):72-79. 被引量：4
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同被引文献11

1Cheng Z M, Anter A M, Yuan W K. Intensification of phase transition on multiphase reactions[J]. AIChEJ, 2001, 47(5): 1185-1192.
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7庞先NFDA1 陈立斌黄仲涛.气相苯加氢制环己烷Pt／Al2O3催化剂的研究[J].化学反应工程与工艺,1988,4(4):9-16.
8Cheng Z M, Anter A M, Khalifa G M, et al. An innovative reaction heat offset operation for a multiphase fixed bed reactor dealing with volatile compounds[J]. Chem Eng Sci, 2001, 56(21-22): 6025-6030.
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引证文献1

1程振民,袁渭康.伴有连续相态变化的反应系统——一种适用于放热气-液-固反应的操作模式[J].石油学报（石油加工）,2002,18(5):72-79. 被引量：4

二级引证文献4

1李卓,周志明,程振民,袁渭康.催化剂颗粒处于内部部分润湿状态下的反应特性研究[J].自然科学进展,2004,14(11):1325-1328. 被引量：2
2张跃.在线就业管理系统的设计与实现[J].福建电脑,2011,27(12):102-103.
3周志明,李卓,程振民,丁勇,袁渭康.加温加压下苯和环己烷在γ-Al_2O_3上的吸附[J].自然科学进展,2004,14(2):161-165. 被引量：5
4周志明,程振民,李卓,袁渭康.在Pd/γ-Al_2O_3催化剂上液相苯加氢的反应动力学[J].华东理工大学学报（自然科学版）,2004,30(1):1-5. 被引量：14

1张辉,王晓慧,郝亚楠,沈正波,李龙土.纳米晶钛酸钡粉体的相结构[J].硅酸盐学报,2014,42(2):216-219.
2程振民,袁渭康.伴有连续相态变化的反应系统——一种适用于放热气-液-固反应的操作模式[J].石油学报（石油加工）,2002,18(5):72-79. 被引量：4

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