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 °C, 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 °C, 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. 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 The solvent effect follows the order of polarity: benzyl methanol> cyclohexanone> toluene. The conversion rises when the temperature ranges from 120 to 150 ° C, but the selectivity of TCPD slightly decreases. Increasing the pressure can improve the conversion but the exo / endo ratio of TCPD is unchanged. The activation kinetics in different solvents was determined via nonlinear regression. The activation en ergies 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 ° C, and pressure 900 kPa. reaction, a conversion of 58.0%, a TCPD selectivity of 95.7%, and an exo / endo ratio of 1 / 5.3 has been obtained.