王贵超
发布时间:2018-05-12 22:55:38    作者:伟德官网点击:[]
姓名 王贵超 性别

出生年月
行政职务
学历 研究生 学位 博士

专业技术职务及任导师情况 副研究员   

所在一级学科名称

所在二级学科名称

教育经历

1.2012/8–2016/11, 纽卡斯尔大学, 化学工程, 博士

2.2006/9–2010/7, 山东大学, 过程装备与控制工程, 学士


研究领域

从事颗粒技术、多相流方面研究,在颗粒气泡相互作用和湍流浮选过程方面从事了多年的基础研究和应用基础研究工作,发表文章四十余篇,其中以第一或通讯作者发表SCI二十余篇。


近年来承担及参与科研项目情况

项目名称


项目来源

起讫时间

经费 (万元)

承担任务

基于光流方法的湍流涡


高分辨率测量技术及颗粒湍流脱附机理研究


国家自然科学基金


青年项目22008141  

2021/01-2023/12  

24  

负责


期刊论文

1. Yao, N.; Liu, J.; Sun, X.; Liu, Y.*; Chen, S.; Wang, G*. A rational interpretation of the role of turbulence in particle-bubble interactions. Miner. 2021, 11, 1006.

2. Li, Q., Peng, Z., Liu, L., Chen, S.*, Liu, T., Wang, L.-P., Wang, G.*, A comparison of different methods for estimating turbulent dissipation rate in under-resolved flow fields from synthetic PIV images. Chem. Eng. Res. Des., 2021, 175, 161-170.

3. Yang, B., Peng, C., Wang, G., Wang, L.-P.*, A direct numerical simulation study of flow modulation and turbulent sedimentation in particle-laden downward channel flows. Phys. Fluids., 2021, 33, 093306.

4. Peng, Z., Wang, G., Moghtaderi, B., Doroodchi, E., A review of microreactors based on slurry Taylor (segmented) flow. Chen. Eng. Sci.,2022, 247, 117040.

5. Xiang, L., Sun, X., Wei, X., Wang, G., Boczkaj, G., Yoon, J., Chen, S., Numerical investigation on distribution characteristics of oxidation air in a lime slurry desulfurization system with rotary jet agitators. Chen. Eng. Process., 2021, 163, 108372.

6. Sun, X., You, W., Xuan, X.*, Ji, L., Xu, X., Wang, G., Zhao, S., Boczkaj, G., Yoon, J., Chen, S.*, Effect of the cavitation generation unit structure on the performance of an advanced hydrodynamic cavitation reactor for process intensifications. Chem. Eng. J., 2021., 412, 128600.

7. Yang, F., He, X., Tan, W., Liu, G., Yi, T., Lu, Q., Wei, X., Xie, H., Long, Q., Wang, G., Guo, C., Pensini, E., Lu, Z., Liu, Q., Xu, Z., Adhesion-Shielding Based Synthesis of Inter-facially Active Magnetic Janus Nanoparticles. J. Colloid. Interf. Sci., 2021.

8. Chen, Y., Li, H., Feng, D.*, Tong, X., Hu, S., Yang, F., Wang, G.*, A recipe of surfactant for the flotation of fine cassiterite particles. Miner. Eng. 2021, 160, 106658.

9. Wang, G.*, Yang, F., Wu, K., Ma, Y., Peng, C., Liu, T., Wang, L.-P.*, Estimation of the dissipation rate of turbulent kinetic energy: A review. Chem. Eng. Sci., 2021, 229, 116133.

10. Chen, S., Chen, X., Wan, D., Sun, X., Ji, L., Wu, K., Yang, F., Wang, G.*, Particle-resolved direct numerical simulation of collisions of bidisperse inertial particles in a homogeneous isotropic turbulence. Powder Technol., 2020a, 376, 72-79.

11. Chen, S., Chen, X., Wan, D., Yi, X., Sun, X., Ji, L., Wang, G.*, A lattice Boltzmann study of the collisions in a particle-bubble system under turbulent flows. Powder Technol., 2020b, 361, 759-768.

12. Sun, X., Jia, X., Liu, J., Wang, G., Zhao, S., Ji, L., Yoon, J.Y., Chen, S., Investigation on the characteristics of an advanced rotational hydrodynamic cavitation reactor for water treatment. Sep. Purif. Technol., 2020a, 251, 117252.

13. Sun, X., Liu, J., Ji, L., Wang, G., Zhao, S., Yoon, J.Y., Chen, S., A review on hydrodynamic cavitation disinfection: The current state of knowledge. Sci. Total Environ., 2020b, 139606.

14. Sun, X., Xuan, X., Song, Y., Jia, X., Ji, L., Zhao, S., Yoon, J.Y., Chen, S., Liu, J., Wang, G.*, Experimental and numerical studies on the cavitation in an advanced rotational hydrodynamic cavitation reactor for water treatment. Ultrason. Sonochem., 2020c, 105311.

15. Wan, D., Yi, X., Wang, L.-P., Sun, X., Chen, S., Wang, G.*, Study of collisions between particles and unloaded bubbles with point-particle model embedded in the direct numerical simulation of turbulent flows. Miner. Eng., 2020, 146, 106137.16. Wang, G., Wan, D., Peng, C., Liu, K., Wang, L.-P., LBM study of aggregation of monosized spherical particles in homogeneous isotropic turbulence. Chem. Eng. Sci., 2019, 201, 201-211.

17. Wan, D., Wang, G., Chen, S., Numerical Investigation of Lid-Driven Deep Cavity with Local Grid Refinement of MRT-LBM. Journal of Beijing Institute of Technology, 2019(3), 17.

18. Wang, G., Bai, X., Wu, C., Li, W., Liu, K., Kiani, A., Recent advances in the beneficiation of ultrafine coal particles. Fuel Process. Technol., 2018a, 178, 104-125.

19. Wang, G., Ge, L., Mitra, S., Evans, G.M., Joshi, J., Chen, S., A review of CFD modelling studies on the flotation process. Miner. Eng., 2018b, 127, 153-177.

20. Zhang, M., Li, T., Ma, S., Wang, G*., An experimental study of copper sulfide flotation in a packed cyclonic–static microbubble flotation column. Sep. Sci. Technol., 2018, 53(14), 2238-2248.

21. Zhang, M., Li, T., Wang, G*., A CFD study of the flow characteristics in a packed flotation column: Implications for flotation recovery improvement. Int. J. Miner. Process., 2017. 159, 60-68.

22. Wang, G., Evans, G.M., Jameson, G.J., Bubble-particle detachment in a turbulent vortex II—Computational methods. Miner. Eng., 2017a, 102, 58-67.

23. Wang, G., Evans, G.M., Jameson, G.J., Bubble movement in a rotating eddy: The implications for particle-bubble detachment. Chem. Eng. Sci., 2017b, 161, 329-340.

24. Zhang, M., Wang, G.*, Evans, G.M., Flow visualizations around a bubble detaching from a particle in turbulent flows. Miner. Eng. 2016., 92, 176-188.

25. Wang, G., Evans, G.M., Jameson, G.J., Experiments on the detachment of particles from bubbles in a turbulent vortex. Powder Technol. 2016., 302, 196-206.

26. Wang, G., Evans, G.M., Jameson, G.J., Bubble-particle detachment in a turbulent vortex I: Experimental. Miner. Eng. 2016., 92, 196-207.

27. Wang, G., Feng, D., Nguyen, A., Evans, G.M., The dynamic contact angle of a bubble with an immersed-in-water particle and its implications for bubble-particle detachment. Int. J. Miner. Process. 2016., 151, 22-32.

28. Wang, G., Nguyen, A.V., Mitra, S., Joshi, J.B., Jameson, G.J., Evans, G.M., A review of the mechanisms and models of bubble-particle detachment in froth flotation. Sep. Purif. Technol. 2016., 170, 155-172.

29. Wang, G., Gao, Y., Mitra, S., Li, Y., Zhou, S., Evans, G., Instantaneous bond number for a particle detaching from a bubble. Int. J. Miner. Process. 2015., 142, 22-29.

30. Wang, G., Sathe, M., Mitra, S., Jameson, G.J., Evans, G.M., Detachment of a bubble anchored to a vertical cylindrical surface in quiescent liquid and grid generated turbulence. Can. J. Chem. Eng. 2014., 92, 2067-2077.

31. Wang, G., Zhou, S., Joshi, J.B., Jameson, G.J., Evans, G.M., An energy model on particle detachment in the turbulent field. Miner. Eng. 2014., 69, 165-169.


发明专利

序号

作者

专利名称

申请号

状态

1

王贵超,姬丽,陈颂英,李清玉,孙逊


催化剂载体及微通道连续流反应器

CN202010066883.1

授权

2

王贵超,陈颂英,孙逊,李清玉

一种旋流梯度剪切流场石墨烯剥离装置

CN201910253862.8

授权


联系方式

邮箱: wanggc@sdu.edu.cn


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