Diels-Alder Addition of Dicyclopentadiene with Cyclopentadiene in Polar Solvents

Diels-Alder addition of dicyclopentadiene and cyclopentadiene in polar solvents has been studied to produce tricyclopentadiene（TCPD） that is a potential high-density fuel precursor. GC and MS analysis shows that the adducts contain two isomers, namely exo- and endo-TCPD. Theoretical simulation shows...

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Veröffentlicht in:	Chemical research in Chinese universities 2008-03, Vol.24 (2), p.175-179
Hauptverfasser:	ZHANG, Xiang-wen, JIANG, Qiang, XIONG, Zhong-qiang, ZOU, Ji-jun, WANG, Li, MI, Zhen-tao
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Sprache:	eng
Schlagworte:	Cyclopentadiene Dicyclopentadiene Diels-Alder addition Diels-Alder加成反应 High density fuel Solvent effect 二环戊二烯极性溶剂高浓度燃料
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creator	ZHANG, Xiang-wen JIANG, Qiang XIONG, Zhong-qiang ZOU, Ji-jun WANG, Li MI, Zhen-tao
description	Diels-Alder addition of dicyclopentadiene and cyclopentadiene in polar solvents has been studied to produce tricyclopentadiene（TCPD） that is a potential high-density fuel precursor. GC and MS analysis shows that the adducts contain two isomers, namely exo- and endo-TCPD. Theoretical simulation shows that although the transition state of endo-TCPD has a lower activation energy, exo-TCPD is thermodynamically preferred. Polar solvents can accelerate the reaction rate and improve the exo/endo ratio of TCPD because the transition state of exo-TCPD has a higher polarity than that of endo-TCPD. The solvent effect follows the order of polarity： benzyl methanol〉cyclohexanone〉toluene. The conversion rises when the temperature ranges from 120 to 150 ℃, but the selectivity of TCPD slightly decreases. Increasing the pressure can improve the conversion but the exo/endo ratio of TCPD is unchanged. The apparent kinetics in different solvents was determined via nonlinear regression. The activation energies are 99.47, 101.15, and 107.32 kJ/mol for benzyl methanol, cyclohexanone, and toluene, respectively. The optimal reaction conditions are as follows： benzyl methanol as solvent, temperature 150 ℃, and pressure 900 kPa. After an 11-hour reaction, a conversion of 58.0%, a TCPD selectivity of 95.7%, and an exo/endo ratio of 1/5.3 has been obtained.
doi_str_mv	10.1016/S1005-9040(08)60036-7
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GC and MS analysis shows that the adducts contain two isomers, namely exo- and endo-TCPD. Theoretical simulation shows that although the transition state of endo-TCPD has a lower activation energy, exo-TCPD is thermodynamically preferred. Polar solvents can accelerate the reaction rate and improve the exo/endo ratio of TCPD because the transition state of exo-TCPD has a higher polarity than that of endo-TCPD. The solvent effect follows the order of polarity： benzyl methanol〉cyclohexanone〉toluene. The conversion rises when the temperature ranges from 120 to 150 ℃, but the selectivity of TCPD slightly decreases. Increasing the pressure can improve the conversion but the exo/endo ratio of TCPD is unchanged. The apparent kinetics in different solvents was determined via nonlinear regression. The activation energies are 99.47, 101.15, and 107.32 kJ/mol for benzyl methanol, cyclohexanone, and toluene, respectively. The optimal reaction conditions are as follows： benzyl methanol as solvent, temperature 150 ℃, and pressure 900 kPa. After an 11-hour reaction, a conversion of 58.0%, a TCPD selectivity of 95.7%, and an exo/endo ratio of 1/5.3 has been obtained.</description><identifier>ISSN: 1005-9040</identifier><identifier>EISSN: 2210-3171</identifier><identifier>DOI: 10.1016/S1005-9040(08)60036-7</identifier><language>eng</language><publisher>Elsevier Ltd</publisher><subject>Cyclopentadiene ; Dicyclopentadiene ; Diels-Alder addition ; Diels-Alder加成反应 ; High density fuel ; Solvent effect ; 二环戊二烯 ; 极性溶剂 ; 高浓度燃料</subject><ispartof>Chemical research in Chinese universities, 2008-03, Vol.24 (2), p.175-179</ispartof><rights>2008 Jilin University</rights><rights>Copyright © Wanfang Data Co. Ltd. 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GC and MS analysis shows that the adducts contain two isomers, namely exo- and endo-TCPD. Theoretical simulation shows that although the transition state of endo-TCPD has a lower activation energy, exo-TCPD is thermodynamically preferred. Polar solvents can accelerate the reaction rate and improve the exo/endo ratio of TCPD because the transition state of exo-TCPD has a higher polarity than that of endo-TCPD. The solvent effect follows the order of polarity： benzyl methanol〉cyclohexanone〉toluene. The conversion rises when the temperature ranges from 120 to 150 ℃, but the selectivity of TCPD slightly decreases. Increasing the pressure can improve the conversion but the exo/endo ratio of TCPD is unchanged. The apparent kinetics in different solvents was determined via nonlinear regression. The activation energies are 99.47, 101.15, and 107.32 kJ/mol for benzyl methanol, cyclohexanone, and toluene, respectively. The optimal reaction conditions are as follows： benzyl methanol as solvent, temperature 150 ℃, and pressure 900 kPa. After an 11-hour reaction, a conversion of 58.0%, a TCPD selectivity of 95.7%, and an exo/endo ratio of 1/5.3 has been obtained.</description><subject>Cyclopentadiene</subject><subject>Dicyclopentadiene</subject><subject>Diels-Alder addition</subject><subject>Diels-Alder加成反应</subject><subject>High density fuel</subject><subject>Solvent effect</subject><subject>二环戊二烯</subject><subject>极性溶剂</subject><subject>高浓度燃料</subject><issn>1005-9040</issn><issn>2210-3171</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><recordid>eNqFkElLA0EQhRtRMEZ_gjB40sNo9TJLThISNxAMRM9Np7s66ThOa8-Y5d_bWfDgxVPB41W9eh8h5xSuKdD8ZkwBsrQHAi6hvMoBeJ4WB6TDGIWU04Ieks6v5ZicNM08enp5LjpkNHRYNWm_MhiSvjGudb5OvE2GTq915T-xbpVxWGOydO0sGfwRXZ2MfKVCMvbVIsrNKTmyqmrwbD-75O3-7nXwmD6_PDwN-s-p5gW0qaaUW5wwbbiAklmFqsRCG5FlaCeMMj2hliqOTGi0RhS6KITo9URpo6lE3iVXu7tLVVtVT-Xcf4c6JsqpWa1mq_WcAZTAIAZ1Sbbz6uCbJqCVn8F9qLCWFOQGodwilBs-Ekq5RSiLuHe724uIcOEwyEbH1hqNC6hbabz798LFPnnm6-mXi39OlH63rkLJ8liHi4z_AOvQhQc</recordid><startdate>20080301</startdate><enddate>20080301</enddate><creator>ZHANG, Xiang-wen</creator><creator>JIANG, Qiang</creator><creator>XIONG, Zhong-qiang</creator><creator>ZOU, Ji-jun</creator><creator>WANG, Li</creator><creator>MI, Zhen-tao</creator><general>Elsevier Ltd</general><general>Key Laboratory for Green Chemical Technology of Ministry of Education,School of Chemical Engineering and Technology,Tianjin University,Tianjin 300072,P.R. 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GC and MS analysis shows that the adducts contain two isomers, namely exo- and endo-TCPD. Theoretical simulation shows that although the transition state of endo-TCPD has a lower activation energy, exo-TCPD is thermodynamically preferred. Polar solvents can accelerate the reaction rate and improve the exo/endo ratio of TCPD because the transition state of exo-TCPD has a higher polarity than that of endo-TCPD. The solvent effect follows the order of polarity： benzyl methanol〉cyclohexanone〉toluene. The conversion rises when the temperature ranges from 120 to 150 ℃, but the selectivity of TCPD slightly decreases. Increasing the pressure can improve the conversion but the exo/endo ratio of TCPD is unchanged. The apparent kinetics in different solvents was determined via nonlinear regression. The activation energies are 99.47, 101.15, and 107.32 kJ/mol for benzyl methanol, cyclohexanone, and toluene, respectively. The optimal reaction conditions are as follows： benzyl methanol as solvent, temperature 150 ℃, and pressure 900 kPa. After an 11-hour reaction, a conversion of 58.0%, a TCPD selectivity of 95.7%, and an exo/endo ratio of 1/5.3 has been obtained.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/S1005-9040(08)60036-7</doi><tpages>5</tpages></addata></record>
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subjects	Cyclopentadiene Dicyclopentadiene Diels-Alder addition Diels-Alder加成反应 High density fuel Solvent effect 二环戊二烯极性溶剂高浓度燃料
title	Diels-Alder Addition of Dicyclopentadiene with Cyclopentadiene in Polar Solvents
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