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MTiO3型复合催化剂催化尿素醇解制碳酸丙烯酯性能OA

Catalytic performances of MTiO3-type composite catalysts for urea alcoholysis to propylene carbonate

中文摘要英文摘要

碳酸丙烯酯(PC)在电池、化工领域应用广泛.尿素醇解法制PC具有原料廉价易得、反应条件温和等特点,具有广阔的工业应用前景.然而,常用的金属氧化物催化剂存在活性组分流失严重、重复使用性能差等问题,严重限制了尿素醇解法的工业化发展,亟需开发兼具高活性与稳定性的催化剂.制备了MTiO3型复合催化剂,通过TGA-DSC、XRD和SEM等多种表征手段,研究了制备条件对催化剂结构和催化尿素醇解制PC性能的影响,并优化了反应条件.结果表明,经750℃焙烧制备的MgTiO3-750催化活性最佳,在反应温度170℃、反应时间3 h、n(1,2-丙二醇)∶n(尿素)=1.5∶1.0和催化剂质量分数1%条件下,PC产率达91.2%.该条件下MgTiO3-750重复使用5次,其PC产率可维持在80.0%~90.0%.进一步构建了复合催化剂MgTiO3+ZnO,发现通过MgTiO3+ZnO中的中强碱位点协同作用,在相同反应条件下PC产率提升至95.7%,重复使用多次MgTiO3+ZnO,其PC产率仍超91.0%,且通过补充ZnO进行再生处理可恢复催化剂催化活性.

Propylene carbonate(PC)is widely used in battery and chemical industry.Urea alcoholysis to PC has a broad industrial application prospect with the features of cheap and easy-to-obtain raw materials,mild reaction conditions,etc.However,the commonly used metal oxide catalysts suffer from serious loss of active components and poor reproducibility,which severely limit the industrial development of urea alcoholysis method,so it is urgent to develop catalysts with both high activity and stability.MTiO3-type composite catalysts were prepared,and the effects of preparation conditions on the structures and catalytic performances for urea alcoholysis to PC of catalysts were studied by various characterization methods,such as TGA-DSC,XRD,SEM,etc.,and the reaction conditions were optimized.The results show that MgTiO3-750 calcined at 750℃ shows the best catalytic activity.Under the conditions of reaction temperature of 170℃,reaction time of 3 h,n(1,2-propanediol)∶n(urea)=1.5∶1.0 and catalyst's mass fraction of 1%,the PC yield reaches 91.2%.The PC yield maintains from 80.0%to 90.0%catalyzed by MgTiO3-750 reused five times under the same conditions.The composite catalyst MgTiO3+ZnO was further constructed.It is found that through the synergistic effect of medium-strong base sites in MgTiO3+ZnO,the PC yield increases to 95.7%under the same reaction conditions.What's more,the PC yield still exceeds 91.0%catalyzed by MgTiO3+ZnO reused multiple times.The catalytic activity can be restored by supplementing ZnO for regeneration treatment.

余结贞;陶长元;杜军

重庆大学化学化工学院,重庆 401331重庆大学化学化工学院,重庆 401331重庆大学化学化工学院,重庆 401331

化学化工

溶胶凝胶法MTiO3型复合催化剂尿素醇解碳酸丙烯酯

sol-gel methodMTiO3-type composite catalystsurea alcoholysispropylene carbonate

《低碳化学与化工》 2026 (5)

46-53,8

10.12434/j.issn.2097-2547.20250228

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