书籍
(1)刘宝庆,过程装备节能技术,化学工业出版社,2022,主编
(2)刘宝庆,过程设备设计(第五版),化学工业出版社,2021,参编
(3)刘宝庆,制药设备设计基础,化学工业出版社,2018,参编
(4)刘宝庆,过程设备设计与选型基础(第三版),浙江大学出版社,2016,参编
(5)刘宝庆,过程节能技术与装备,化学工业出版社,2012,主编
SCI论文
(1)Zixuan Zhang, Pengfei Gao, Qing Xiao, Baoqing Liu. Experimental investigation on solid particle distribution in dense solid–liquid stirred tank. Chemical Papers, 2021, 75: 147-1468.
(2)Zilong Xu, ChaoYang, Ziqiang Zhang, Baoqing Liu, Zhijiang Jin. Study on the numerical model of dense solid suspension driven by a coaxial mixer. Industrial & Engineering Chemistry Research, 2021, 60(4): 19391951.
(3)Chao Yang, Pengfei Gao, Bo Wang, Baoqing Liu. Experimental study on coaxial mixer based on critical uniform dispersion of floating particles. Chemical Papers, 2021
(4)Chao Yang, Ning Sun, Ziqiang Zhang, Baoqing Liu. Experimental study on micromixing characteristics of coaxial mixer in solid-liquid systems. Industrial & Engineering Chemistry Research, 2021, 60(39): 14318-14328.
(5)Baoqing Liu, Pengfei Gao, Ning Sun, Yikun Zhang, Zhijiang Jin, Bengt Sunden. Experimental investigation on micromixing characteristics of coaxial mixers in viscous system. The Canadian Journal of Chemical Engineering, 2020, 98(8): 1815-1824.
(6)Baoqing Liu, Qing Xiao, Penfei Gao, Bengt Sunden, Fangyi Fan.Investigation of gas–liquid dispersion and mass transfer performance of wide-viscosity-range impellers in water solutions of xanthan gum. Chemical Engineering Research & Design, 2020, 154:60-69.
(7)Baoqing Liu, Zilong Xu, Qing Xiao, Bolin Huang. Numerical study on solid suspension characteristics of a coaxial mixer in viscous systems. Chinese Journal of Chemical Engineering, 2019, 27(10): 2325-2336.
(8)Zhijiang Jin, Zilong Xu, Baoqing Liu, Bengt Sunden. Effect of the radial measurement position on the determination of just-suspended speed using Pressure Gauge Technology. Industrial & Engineering Chemistry Research, 2019, 58(51): 23490-23497.
(9)Baoqing Liu, Ning Sun, Zhijiang Jin, Yikun Zhang, Bengt Sunden. Numerical investigation and estimating correlation of micromixing performance of coaxial mixers. Industrial & Engineering Chemistry Research, 2019, 58(49): 22376-22388.
(10)Baoqing Liu, Pengfei Gao, Zilong Xu, Bengt Sunden, Yijun Zheng. Experimental investigation on drawdown of floating particles in viscous systems driven by coaxial mixers. Industrial & Engineering Chemistry Research, 2019, 58(25): 11060-11071.
(11)Zilong Xu, Zhijiang Jin, Baoqing Liu, Sunden Bengt. Experimental investigation on solid suspension performance of coaxial mixer in viscous and high solid loading systems. Chemical Engineering Science, 2019, 208: 1-12.
(12)Ning Sun, Ruijia Cheng, Yanan Zhang, Baoqing Liu, Bengt Sunden. Design guidelines for fluid-elastic instability of tube bundles subjected to two-phase cross flow. Journal of Zhejiang University-SCIENCE A, 2019, 20(8): 577-589.
(13)Liu B.Q., Xiao Q., Sun N., Gao P.F., Fan F.Y., Sunden B.. Effect of gas distributor on gas–liquid dispersion and mass transfer characteristics in stirred tank [J]. Chemical Engineering Research and Design, 2019, 145:314-322.
(14)Liu B.Q., Xu Z.L., Fan F.Y.,Huang B.L. Experimental study on the solid suspension characteristics of coaxial mixers[J]. Chemical Engineering Research and Design, 2018, 133:335-346.
(15)Liu B.Q., Zheng Y.J., Cheng R.J., et al. Experimental study on gas–liquid dispersion and mass transfer in shear-thinning system with coaxial mixer[J]. Chinese Journal of Chemical Engineering, 2018, 26(9): 1785-1791.
(16)Liu B.Q., Cheng R.J., Zhang Y.N., et al. Experimental research on fluid-elastic instability in tube bundles subjected to air-water cross flow. Nuclear Science & Engineering, 2018, 189(3):290-300.
(17)Liu B.Q., Zheng Y.J., Chen M.Q., et al. CFD simulation of the mixing and dispersing of floating particles in a viscous system. Brazilian Journal of Chemical Engineering, 2017, 34(4):1175-1189.
(18)Liu B.Q., Fan F.Y., Chen X.G., et al. The influence of impeller combination on the gas-liquid dispersion performance of a coaxial mixer in viscous fluids. International Journal of Chemical Reactor Engineering, 2017, 15(6):1515-1525.
(19)Liu B.Q., Fan F.Y., Cheng R.J., et al. Bottom pressure method for the determination of the flooding/loading transition in an aerated vessel stirred by a Rushton impeller. Industrial & Engineering Chemistry Research, 2017,56(41): 11977-11982.
(20)Liu B.Q., Zheng Y.J., Chen M.Q., et al. Experimental study on the mixing and dispersing of floating particles in viscous system. Canadian Journal of Chemical Engineering, 2016, 94(10):2013-2022.
(21)Liu B.Q., Huang B.L., Zhang Y.K., et al. Numerical study on gas dispersion characteristics of a coaxial mixer with viscous fluids. Journal of the Taiwan Institute of Chemical Engineers, 2016, 66:54-61.
(22)Liu B.Q., Zhang Y.K., Zheng Y.J., et al. Micromixing simulation of novel large-double-blade impeller.Journal of the Taiwan Institute of Chemical Engineers, 2016, 66:62-6.
(23)Liu B.Q., Wang M.M., Liu J.L., et al. Experimental study on micromixing characteristics of novel large-double-blade impeller. Chemical Engineering Science, 2015, 123:641-647.
(24)Liu B.Q., Zheng Y.J., Huang B.L., et al. The influence of feeding location on the micromixing performance of novel large-double-blade impeller.Journal of the Taiwan Institute of Chemical Engineers, 2015, 52:65-71.
(25)Liu B.Q., Zhang Y.Q., Chen M.Q., et al. Power consumption and flow field characteristics of a coaxial mixer with a double inner impeller . Chinese Journal of Chemical Engineering, 2015, 23(1):1-6.
(26)Liu B.Q., Chen M.Q., Zhang Y.K.,et al. Experimental research on a process for the recycling of yellow phosphorous tail gas to produce formic acid. Aerosol and Air Quality Research, 2014,14(5): 1466-1476.
(27)Liu B.Q., Liu J.L., Zhang Y.K., et al. Experimental research on the power consumption of a coaxial mixer in a fluid with high viscosity. Industrial & Engineering Chemistry Research, 2013, 52(20):6862-6867.
(28)Liu B.Q., Zhang Y.K., Liu J.L., et al. Research on heat transfer performance of coaxial mixer with inner combined impeller. Industrial & Engineering Chemistry Research, 2013, 52(48):17285-17293.
(29)Liu B.Q., Qin F.L., Jiang J.L., Jin Z.J.. Research on protective measures to high-temperature corrosion of a novel energy-saving phosphorus reaction tower. Journal of Materials Engineering and Performance,2012,21(3):308-312.
(30)Liu B.Q., Fan K.Q., Jiang J.L..Development and CFD simulation of a novel phosphoric reactor with waste heat recovery. Journal of the Energy Institute, 2009, 82(4):206-217.
(31)Liu B.Q., Jiang J.L. Mathematical model for mass and heat transfer in multilevel reactor for pyrolysis of used tyres without wire. Journal of the Energy Institute, 2006, 79(3):180-186.
(32)Liu B.Q., Jiang J.L..Waste heat recovery in the production of furnace-grade phosphoric acid. Journal of the Energy Institute, 2006, 79(1):27-32.
EI论文
(1)杨潮, 王博, 张自强, 肖 清, 刘宝庆. 面向最优固含率的推进式搅拌器固相悬浮性能研究[J]. 高校化学工程学报, 2021, 35(3): 415-422.
(2)徐子龙, 孙宁, 杨潮, 刘宝庆, 金志江. 搅拌釜内稠密固液混合的数值模拟[J]. 高校化学工程学报, 2020, 34(4): 890-896
(3)孙宁, 高鹏飞, 杨潮, 刘宝庆, 金志江. 同心双轴搅拌器气液分散性能的实验研究[J]. 高校化学工程学报, 2020,34(3): 619-625
(4)刘宝庆,郑毅骏, 梁慧力.剪切变稀体系同心双轴搅拌釜内的气液分散模拟.化工学报, 2017, 68(6):2280-2289
(5)刘宝庆, 陈小阁, 陈涛.两相横向流诱发换热器管束振动的研究进展.化工机械, 2016, 43(2):131-136
(6)黄博林, 陈小阁, 张义堃,刘宝庆.木炭生产技术研究进展. 化工进展, 2015, 34(8):3003-3008
(7)陈明强, 刘景亮, 钱路燕, 刘宝庆. 宽粘度域搅拌器的开发及其研究进展.化工机械, 2014, 41(1):1-5
(8)刘景亮, 刘宝庆, 陈志平. 压力容器风险评估的技术进展及报告编制.化工机械, 2013, 40(3):273-279
(9)刘宝庆, 张义堃, 蒋家羚. 回收黄磷尾气副产甲酸的新工艺及其参数优化.高校化学工程学报, 2013(4):714-720
(10)刘宝庆, 钱路燕, 刘景亮. 新型大双叶片搅拌器的实验研究与结构优化.高校化学工程学报, 2013(6):945-951
(11)刘宝庆,张义堃,刘景亮,秦福磊,林兴华,金志江.新型同心双轴搅拌器功率与混合特性的数值模拟.化工学报,2013,64(4):1135-1144
(12)刘宝庆,钱路燕,陈明强,徐妙富,林兴华,金志江.新型大双叶片搅拌器功率与混合特性的数值模拟.化工学报,2013,64(3):849-857
(13)刘宝庆,张义堃,蒋家羚,林兴华,何锦林. 连续化回收黄磷尾气副产甲酸的新系统研究.化工学报,2012,63(6):1872-1876
(14)刘宝庆,厉鹏,林兴华,朱维波. 激光焊蜂窝夹套压力鼓胀的实验与有限元分析.浙江大学学报(工学版),2011,45(3):571-575
(15)刘宝庆,王冰,蒋家羚,张琼. 可拆式螺旋板换热器传质传热的数值模拟.应用基础与工程科学学报,2010,18(1):71-79
(16)徐妙富,刘宝庆,蒋家羚,金志江. 移动式低温LNG贮罐强度的有限元分析.低温工程,2010,(1):11-16
(17)刘宝庆,蒋家羚. 膜式水冷壁结构燃磷塔的开发与传质传热的数值模拟(I):模型建立. 化工学报,2006, 57(5):1107-1113
(18)刘宝庆,蒋家羚. 膜式水冷壁结构燃磷塔的开发与传质传热的数值模拟(II):传热特性影响因素分析. 化工学报,2006,57(5):1114-1119
(19)刘宝庆,蒋家羚. 基于传质传热模型的废轮胎裂解塔的设计优化(I):模型建立. 化工学报, 2006, 57(7):1525-1531
(20)刘宝庆,蒋家羚. 基于传质传热模型的废轮胎裂解塔的设计优化(II):优化设计. 化工学报, 2006,57(7):1532-1536
(21)刘宝庆,蒋家羚,陈伯川,姚善泾. 多层盘式废轮胎裂解塔中试油品的提纯实验研究. 应用基础与工程科学学报, 2006,14(4):529-534
(22)刘宝庆,蒋家羚. 旋转圆盘干燥机转子圆盘的力学模型. 农业机械学报,2005, 36(8):45-49
(23)刘宝庆,蒋家羚.新型热法磷酸燃磷塔传热分析与计算.化学工程,2004,32(4):18-21
(24)蒋家羚,刘宝庆,刘小龙.热法磷酸生产余热利用装置及其燃烧温度研究. 高校化学工程学报,2003,17(2):141-145
会议论文
(1)刘宝庆,刘景亮,陈志平. 压力容器风险评估的技术进展及报告编制,34-41,第八届全国压力容器设计学术会议,2012.10,张家港
(2)刘宝庆,陈明强,张义堃,厉鹏,林兴华,金志江. 含组合式内桨的同心双轴搅拌器的传热特性研究,175-183,第八届全国压力容器设计学术会议, 2012.10,张家港
(3)刘宝庆,厉鹏,林兴华,蒋家羚. 激光焊蜂窝夹套压力鼓胀的实验研究与有限元分析,108-113,第七届全国压力容器设计学术会议, 2010.11,溧阳
(4)刘宝庆,蒋家羚,林兴华,陈志平. 新型热法磷酸生产系统用能分析,513-515,2006年石油和化工行业节能技术研讨会,2006.9,北京
(5)蒋家羚,林兴华,刘宝庆. 化工生产中的节能技术与装备国内研发动态,92-98,第六届全国压力容器学术会议,2005.9,杭州
(6)Jiang Jialing, Liu Baoqing, Liu Xiaolong, Chen Ling. Development and heat transfer model of cracking tower for waste tires, 969-974, Proceedings of the 3rd international symposium on heat transfer and energy conservation, 2004.1, 广州
(7)蒋家羚,刘宝庆. 旋转圆盘式和旋转管束式干燥设备的设计,355-358,第九届全国干燥会议,2003.10,杭州
(8)蒋家羚,刘宝庆. 新型热法磷酸燃磷塔的传热分析与计算,1173-1176,中国工程热物理学会传热传质学术会议,2002.10,上海