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杨超课题组

Yang Chao  Ph. D.

课题组长、研究员

南京工业大学获博士学位(1998年)

Email: chaoyang@ipe.ac.cn

研究领域

低品位多金属复杂矿的生物冶金与湿法冶金

化学反应工程与多相传递

多相生化过程设备的设计、放大、优化及调控

发表的主要论文(近5年)

[1]Dang Cheng, Xin Feng, Chao Yang, Jingcai Cheng, Zaisha Mao. Experimental Study on Micromixing in a Single-Feed Semibatch Precipitation Process in a Gas–Liquid–Liquid Stirred Reactor. Industrial & Engineering Chemistry Research, 2014, 53(48): 18420-18429.
[2]Run Li, Jingsheng Zhang, Chao Yang, Zaisha Mao, Xiaolong Yin. Numerical Study on Steady and Transient Mass/Heat Transfer Involving a Liquid Sphere in Simple Shear Creeping Flow. AIChE Journal, 2014, 60(1): 343-352.
[3]Dang Cheng, Xin Feng, Chao Yang, Jingcai Cheng, Zaisha Mao. Experimental Study on Micromixing in a Single-Feed Semibatch Precipitation Process in a Gas–Liquid–Liquid Stirred Reactor. Industrial & Engineering Chemistry Research. 2014, 53(48): 18420-18429
[4]Run Li, Jingsheng Zhang, Chao Yang, Zaisha Mao, Xiaolong Yin. Numerical Study on Steady and Transient Mass/Heat Transfer Involving a Liquid Sphere in Simple Shear Creeping Flow. AIChE Journal. 2014, 60(1):343-352
[5]Wang Zhihui, Lu Ping, Wang Yang, Yang Chao*, Mao Zaisha, Experimental investigation and numerical simulation of marangoni effect induced by mass transfer during drop formation, AIChE Journal, 2013, 59(11), 4424-4439.
[6]Cheng Dang, Feng Xin, Cheng Jingcai, Yang Chao*, Numerical simulation of macro-mixing in liquid–liquid stirred tanks, Chemical Engineering Science, 2013, 101, 272-282.
[7]Cao Junya, Li Yuanyuan, Zhang Guangji, Yang Chao, Cao Xiaoya, Effect of Fe(III) on the biotreatment of bioleaching solutions using sulfate-reducing bacteria, International Journal of Mineral Processing, 2013, 125, 27-33
[8]Pei Guo, Guangji Zhang, Junya Cao, Yuanyuan Li, Zhaoheng Fang, Chao Yang, “Catalytic effect of Ag+ and Cu2+ on realgar leaching”, Hydrometallurgy, 2011, 106(1-2): 99-103.
[9]Zhang Jingsheng, Yang Chao, Mao Zai-Sha. Mass and heat transfer from or to a single sphere in simple extensional creeping flow. AIChE Journal. 2012, 58(10): 3214-3223.
[10]Cheng Dang, Cheng Jingcai, Li Xiangyang, Wang Xi, Yang Chao, Mao Zai-Sha. Experimental study on gas-liquid-liquid macro-mixing in a stirred tank. Chemical Engineering Science, 2012, 75: 256-266.
[11]Feng Xin, Li Xiangyang, Cheng Jingcai, Yang Chao, Mao Zai-Sha. Numerical simulation of solid-liquid turbulent flow in a stirred tank with a two-phase explicit algebraic stress model. Chemical Engineering Science, 2012, 82: 272-284.
[12]Zhang Jingsheng, Yang Chao, Mao Zai-Sha. Unsteady conjugate mass transfer from a spherical drop in simple extensional creeping flow. Chemical Engineering Science, 2012, 79: 29-40.
[13]Wang Xi, Yong Yumei, Fan Ping, Yu Gengzhi, Yang Chao, Mao Zai-Sha. Flow regime transition for cocurrent gas-liquid flow in micro-channels. Chemical Engineering Science, 2012, 69(1): 578-586.
[14]Feng Xin, Cheng Jingcai, Li Xiangyang, Yang Chao, Mao Zai-Sha. Numerical simulation of turbulent flow in a baffled stirred tank with an explicit algebraic stress model. Chemical Engineering Science, 2012, 69(1): 30-44.
[15]Cheng Jingcai, Yang Chao, Mao Zai-Sha. CFD-PBE simulation of premixed continuous precipitation incorporating nucleation, growth and aggregation in a stirred tank with multi-class method. Chemical Engineering Science, 2012, 68(1): 469-480.
[16]Zhang Qinghua, Yang Chao, Mao Zai-Sha, Mu Junjuan. Large eddy simulation of turbulent flow and mixing time in a gas-liquid stirred tank. Industrial & Engineering Chemistry Research, 2012, 51(30): 10124-10131.
[17]Li Xiangyang, Yang Chao, Yang Shifang, Li Guozheng. Fiber-optical sensors: basics and applications in multiphase reactors. Sensors, 2012, 12(9): 12519-12544.
[18]Mao Zai-Sha, Yang Chao, Chen Jiayong. Mathematical modeling of a hydrophilic cylinder floating on water. Journal of Colloid and Interface Science, 2012, 377(1): 463-468.
[19]Cao Junya, Zhang Guangji, Mao Zai-Sha, Fang Zhaoheng, Yang Chao. Influence of carbon sources on the growth and activity of sulfate-reducing bacteria. International Journal of Mineral Processing, 2012, 106-109: 58-64.
[20]Mao Zai-Sha, YANG Chao, Vassilios C. Kelessidis. Modeling and numerical simulation of yield viscoplastic fluid flow in concentric and eccentric annuli. Chinese Journal of Chemical Engineering, 2012, 20(1):191-202.
[21]Cheng Jingcai, Feng Xin, Cheng Dang, Yanf Chao. Retrospect and perspective of micro-mixing studies in stirred tanks. Chinese Journal of Chemical Engineering, 2012, 20(1): 178-190.
[22]Chao Yang, Jingsheng Zhang, Donald L. Koch, Xiaolong Yin, “Mass/Heat Transfer from a Neutrally Buoyant Sphere in Simple Shear Flow at Finite Reynolds and Peclet Numbers”, AIChE Journal, 2011, 57(6): 1419-1433.
[23]Jianfeng Wang, Zhihui Wang, Ping Lu, Chao Yang, Zai-Sha Mao, “Numerical simulation of the Marangoni effect on transient mass transfer from single moving deformable drops”, AIChE Journal, 2011, 57(10): 2670-2683.
[24]Zhihui Wang, Ping Lu, Guangji Zhang, Yumei Yong, Chao Yang, Zai-Sha Mao, “Experimental Investigation of Marangoni Effect in 1-Hexanol/Water System”, Chemical Engineering Science, 2011, 66(12): 2883-2887.
[25]Yanchun Zhao, Xiangyang Li, Jingcai Cheng, Chao Yang, Zai-Sha Mao, “Experimental study on liquid-liquid macro-mixing in a stirred tank”, Industrial & Engineering Chemistry Research, 2011, 50(10): 5952-5958.
[26]Ganesh Subramanian, Donald L. Koch, Jingsheng Zhang, Chao Yang, “The influence of the inertially dominated outer region on the rheology of a dilute dispersion of low-Reynolds-number drops or rigid particles”, Journal of Fluid Mechanics, 2011, 674: 307-358.
[27]Yan Li, Yifei Zhang, Fangfang Chen, Chao Yang, Yi Zhang, “Polymorphic Transformation of Aluminium Hydroxide Precipitated from Reactive NaAl(OH)4-NaHCO3 Solution”, Crystal Growth & Design, 2011, 11(4): 1208-1214.
[28]Xiangyang Li, Chao Yang, Guangji Zhang, Zai-Sha Mao, Hongbao Zhou, “Experimental studies on suspension of solid particles in a low shear stirred vessel”, Chemical Engineering & Technology, 2011, 34(9), 1581-1586.
[29]Dang Cheng, Jingcai Cheng, Yumei Yong, Chao Yang, Zai-Sha Mao, “CFD prediction of critical agitation speed for complete dispersion in liquid-liquid stirred reactors”, Chemical Engineering & Technology, 2011, 34(12): 2005-2015.
[30]Yumei Yong, Chao Yang, Yi Jiang, Ameya Joshi, Youchun Shi, Xiaolong Yin, “Numerical simulation of immiscible liquid-liquid flow in microchannels using the lattice Boltzmann method”, SCIENCE CHINA Chemistry, 2011, 54(1): 244–256.

授权和申请发明专利和计算机软件著作权(近5年)

[1]杨超,王曦,雍玉梅,张广积,程景才,冯鑫,李向阳,张伟鹏,李媛媛,毛在砂,Passive spiral micromixer and its applications. 美国授权专利,专利号:US 8,894,966
[2]李媛媛,张广积,曹俊雅,杨超,一种用于生物氧化生产三价铁的立式细胞固定化反应器,ZL201110320360.6
[3]杨超,王涛,毛在砂,程景才,李向阳,禹耕之,一种产生向心流动的搅拌桨装置,ZL200910236645.4
[4]杨超,赵承军,禹耕之,张宝林,雍玉梅,毛在砂,康文斌,崔焕茹,李向阳,陈文海,张广积,一种硫铵结晶的装置,ZL200910075440.2
[6]禹耕之,毛在砂,杨超,雍玉梅,张广积,赵承军,曹志广,刘岚,王仲霞,“一种适用于甲苯法己内酰胺工艺的多相反应器的流体分布器”, ZL200810110439.4
[7]雍玉梅 杨超 王志侃 毛在砂 仇振华 李向阳 姜惠文 张广积,“一种己内酰胺苛化装置”, ZL 201010234635.X
[8]雍玉梅,何晓辉,杨超,毛在砂,张广积,禹耕之,“一种降低硫酸铵晶体夹带己内酰胺量的方法”, ZL 20101042760.8
[9]软件名称:搅拌槽流场模拟软件。证书号:软著等字第BJ37709号,发证日期:2012年4月9日(完成人:杨超、冯鑫、李向阳、程景才、毛在砂、雍玉梅、张广积、范平)
[10]软件名称:水平集方法模拟单液滴运动和传质过程软件。证书号:软著登字第BJ37710号,发证日期:2012年4月9日(完成人:杨超、陈杰、李向阳、王智慧、毛在砂、汪洋、程景才、雍玉梅、冯鑫)
[11]软件名称:搅拌槽宏观混合过程模拟软件. 证书号:软著登字第BJ38286号,发证日期:2012年10月10日(完成人:杨超、程荡、程景才、李向阳、冯鑫、毛在砂、雍玉梅、张广积、汪洋)
[12]软件名称:简单拉伸流场中单颗粒传质过程模拟软件。证书号:软著登字第BJ38349号,发证日期:2012年10月10日(完成人:杨超、张敬升、毛在砂、雍玉梅、范平、冯鑫)
[13]张广积,韩宝玲,方兆珩,杨超,禹耕之,毛在砂. 氧压酸浸法处理锌湿法冶金净化废渣,中国发明专利,专利号:ZL 200810103261.0,2011年4月6日授权

出版专著(近5年)

[1]Chao Yang and Zaisha Mao. Numerical Simulation of Multiphase Reactors with Continuous Liquid Phase. Academic Press (Elsevier): London, 2014