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姓 名:
刘新华
性    别:
职 务:
职    称:
研究员
通讯地址:
北京市海淀区中关村北二条1号
邮政编码:
100190
电子邮件:
xhliu@ipe.ac.cn

 
 
 
 

  刘新华,湖北汉川人,博士,研究员。1998年和2001年分别在中国石油大学(华东)与中国石油大学(北京)获得工学学士和硕士学位,2005年在中国科学院过程工程研究所获得工学博士学位,2008年在加拿大不列颠哥伦比亚大学进行访问研究;主要从事流态化和多相流等复杂系统的实验和模拟研究工作,目前正致力于煤与生物质的清洁燃烧利用以及虚拟过程工程等相关理论和技术应用研究;曾获得中国科协求是杰出青年成果转化奖、中国发明专利优秀奖和中国分析测试协会科学技术奖一等奖等;主持承担国家自然科学基金、国家国际科技合作、中科院战略先导专项、以及大中型企业合作等项目;已发表期刊论文40余篇,编撰中英文专著4章节,获得中国发明专利授权20余项、软件著作权4项。

  代表性论文与专利

  1.Shanwei Hu, Xinhua Liu*. Development of a hydrodynamic model and the corresponding virtual software for dual-loop circulating fluidized beds. Frontiers of Chemical Science and Engineering, 2020 (Accept).

  2.Shanwei Hu, Xinhua Liu*. A CFD-PBM-EMMS integrated model applicable for heterogeneous gas-solid flow.Chemical Engineering Journal, 2020, https://doi.org/10.1016/j.cej.2019.123122.

  3.Juanbo Liu, Xinhua Liu*, Zhixin Zhang, Hui Zhao, Wei Ge*. Modeling the axial hydrodynamics of gas-solid counter-current downers. Particuology, 2020, 50: 135-143.

  4.Shanwei Hu, Xinhua Liu*. A general EMMS drag model applicable for gas-solid turbulent beds and cocurrent downers. Chemical Engineering Science, 2019, 205: 14-24.

  5.Xinhua Liu*, Meng Zhao, Shanwei Hu*, Wei Ge. Three-dimensional CFD simulation of tapered gas-solid risers by coupling the improved EMMS drag. Powder Technology, 2019, 352: 305-313.

  6.Honglin Li, Jian Han, Nan Zhang*, Xinhua Liu*, Jingdong He, Wei Du. Effects of high-temperature char layer and pyrolysis gas on NOx reduction in a typical decoupling combustion coal-fired stove. Journal of Thermal Science, 2019, 28(1): 40-50.

  7.Mengjie Du, Shanwei Hu, Jianhua Chen*, Xinhua Liu*, Wei Ge. Extremum characteristics of energy consumption in fluidization analyzed by using EMMS. Chemical Engineering Journal, 2018, 342, 386-394.

  8.Shanwei Hu, Xinhua Liu*, Nan Zhang, Jinghai Li, Wei Ge, Wei Wang. Quantifying cluster dynamics to improve EMMS drag law and radial heterogeneity description in coupling with gas-solid two-fluid method. Chemical Engineering Journal, 2017, 307, 326-338.

  9.Zhixin Zhang, Shanwei Hu, Xinhua Liu*, Hui Zhao, Modeling the hydrodynamics of cocurrent gas-solid downers according to energy-minimization multi-scale theory. Particuology, 2016, 29, 110-119.

  10.Xinhua Liu*, Yuefang Jiang, Nan Zhang*, Jinghai Li. Gas penetrating flow through dynamic particle clusters. Powder Technology, 2016, 297, 409-414.

  11.Xinhua Liu*, Shanwei Hu, Yuefang Jiang, Jinghai Li. Extension and application of energy- minimization multi-scale (EMMS) theory for full-loop hydrodynamic modeling of complex gas-solid reactors. Chemical Engineering Journal, 2015, 278, 492-503.

  12.Meng Zhao, Nan Zhang, Xinhua Liu*, Wei Du. Numerical simulation of loop seal for a circulating fluidized bed based on an improved EMMS bubbling model. Powder Technology, 2015, 284, 443-451.

  13.Xinhua Liu*. Summary of Track 1: Particle and particle system characterization. Procedia Engineering, 2015, 102, 2-3.

  14.Xinhua Liu*. Yuefang Jiang, Cenfan Liu, Wei Wang, Jinghai Li. Hydrodynamic modeling of gas?solid bubbling fluidization based on energy-minimization multiscale (EMMS) theory. Industry & Engineering Chemistry Research, 2014, 53, 2800-2810.

  15.Shanwei Hu, Xinhua Liu*, Jinghai Li. Steady-state modeling of axial heterogeneity in CFB risers based on one-dimensional EMMS model. Chemical Engineering Science, 2013, 96, 165-173.

  16.Xinhua Liu, Li Guo, Zhaojie Xia, Bona Lu, Mingkun Zhao, Fanxiao Meng, Zhouzhou Li, Jinghai Li. Harnessing the power of virtual reality. Chemical Engineering Progress, 2012, 108(7), 28-33.

  17.Fanxiao Meng, Xinhua Liu*. Parametric effects of superficial gas velocity and cluster internal voidage on the penetrating flow through clusters. Powder Technology, 2012, 224, 404-409.

  18.Xinhua Liu, Xin Cui, Guang Sun, Toshiyuki Suda, Masahiro Narukawa, Yunyi Liu, Guogang Sun, Guangwen Xu*. Buildup of high solids flux conveying flow by coupling a moving bed to the riser bottom. AIChE Journal, 2009, 55(9), 2477-2481.

  19.Xinhua Liu, Guangwen Xu*, Shiqiu Gao. Fluidization of extremely large and widely sized coal particles as well as its application in an advanced chain grate boiler. Powder Technology, 2008, 188, 23-29.

  20.Xinhua Liu, Xin Cui, Guang Sun, Guogang Sun, Toshiyuki Suda, Guangwen Xu*. High solid-flux concurrent conveying flow realized by coupling a moving bed to the bottom section of a riser. Industry & Engineering Chemistry Research, 2008, 47 (23), 9703-9708.

  21.Xinhua Liu, Guangwen Xu*. Shiqiu Gao. Micro fluidized beds: wall effect and operability. Chemical Engineering Journal, 2008, 137, 302-307.

  22.Xinhua Liu, Shiqiu Gao, Wenli Song, Jinghai Li*. Effect of particle acceleration/deceleration on particle clustering behavior in dilute gas–solid flow. Chemical Engineering Science, 2006, 61, 7087-7095.

  23.Xinhua Liu, Shiqiu Gao, Jinghai Li*. Characterizing particle clustering behavior by PDPA measurement for dilute gas-solid flow. Chemical Engineering Journal, 2005, 108(3), 193-202.

  24.气固反应动力学参数分析仪. 发明专利, No. 200610171515.3. (2010.2.10 授权)

  25.气固两相流流场实时测量系统及方法. 发明专利, No. 201010228204.2. (2013.7.10 授权)

  26.一种对流化催化裂化系统的全循环稳态模拟方法. 发明专利, No. 201110122298.X. (2016.1.20 授权)

  27.一种燃煤解耦燃烧装置及燃烧方法. 发明专利, No. 201310381626.7. (2016.5.4 授权)

  28.一种解耦燃烧装置及燃烧方法. 发明专利, No. 201710512563.2. (申请日: 2017.06.29).

  29.虚拟流态化模拟软件(VF). 软件著作权, No. 2015SRBJ0279. (2015.5.29授权)

  30.解耦燃烧VPE系统(DC-VPE). 软件著作权, No. 2018SRBJ1041. (2018.12.25授权)

  31.解耦炉智能化设计平台(DC-IDP). 软件著作权, No. 2019SRBJ0006. (2019.02.25授权)

  32.循环流化床整体分布实时模拟器(CFB realtime simulator) . 软件著作权, No. 2019SRBJ0008. (2019.02.25授权)

  


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