［1］ELPERIN I T.Heat and Mass Transfer in Opposing Currents［J］.Journal of Engineering Physics,1961,6:62-68.

［2］梁腾波,白净,张璐,等.撞击流技术在化学工程领域的研究与应用进展［J］.石油化工,2016,45(3):360-367.

［3］张建伟,张志刚,冯颖,等.撞击流反应器混合性能研究进展［J］.化工进展,2017,36(S1):8-16.

［4］黄凯,刘华彦,伍沅.循环撞击流干燥设备和过程研究［J］.高校化学工程学报,2000，14(6):517-523.

［5］WANG F C,ZHOU Z J,DAI Z H,et al.Development and Demonstration Plant Operation of an Opposed Multi-Burner Coal-Water Slurry Gasification Technology［J］.Frontiers of Energy and Power Engineering in China,2007,1(3):251-258.

［6］李友凤,叶红齐,何显达,等.撞击流混合器微观混合性能的研究［J］.高校化学工程学报,2012,26(1):49-55.

［7］胡立舜,王兴军,于广锁,等.撞击流气液吸收特性及用于甲醇合成应用研究［J］.高校化学工程学报,2009,23(3):404-410.

［8］TAMIR A,HERSHKOVITZ D.Absorption of CO2 in a New Two-Impinging-Streams Absorber［J］.Chemical Engineering Science,1985,40(11):2149-2151.

［9］许建良,李伟锋,曹显奎,等.不对称撞击流的实验研究与数值模拟［J］.化工学报,2006,57(2):288-291.

［10］SAIEN J，EBRAHIMZADEH ZONOUZIAN S A，DEHKORDI A M.Investigation of a Two Impinging-Jets Contacting Device 〖JP〗for Liquid-Liquid Extraction Process［J］.Chemical Engineering Science,2006,61（12）:3942-3950.

［11］DEVAHASTIN S，MUJUMDAR A S.A Numerical Study of Flow and Mixing Characteristics of Laminar Confined Impinging Streams［J］.Chemical Engineering Journal,2002,85（2/3）:215-233.

［12］李伟锋,孙志刚,刘海峰,等.两喷嘴对置撞击流驻点偏移规律［J］.化工学报,2008,59(1):46-52.

［13］孙志刚,李伟锋,刘海峰.大间距两不对称喷嘴对置撞击流驻点偏移规律［J］.高校化学工程学报,2009,23(6):990-994.

［14］罗燕,周剑秋,郭钊,等.液体连续相撞击流反应器中流体混合时间的数值模拟［J］.化工学报,2015,6(66):2049-2054.

［15］王洪福.非对称高速撞击流反应器内流动特性的实验研究和数值模拟［D］.北京:北京化工大学,2015:46.

［16］李镇江,孙坤岩,宋冠英.基于CFD数值模拟的新型撞击流反应器内管开孔优化［J］.化工进展,2017,36(12):4385-4391.

［17］LIU X Q，YUE S，LU L Y，et al.Experimental and Numerical Studies on Flow and Turbulence Characteristics of Impinging Stream Reactors with Dynamic Inlet Velocity Variation［J］.Energies,〖JP〗2018,11(7):1717.

［18］张建伟,施博文,冯颖,等.浸没状态下液-液两相水平对撞浓度场的数值模拟［J］.过程工程学报,2018,18(1):57-62.

［19］张建伟,王诺成,张学良,等.基于PLIF的浸没撞击流反应器的混合特性［J］.过程工程学报,2016,16(1):68-73.