王东祥

职称

副教授

职务

副院长

联系方式

dxwang@jiangnan.edu.cn

教育背景

2017-2019，LETOU国际米兰官网，轻工技术与工程，博士后；

2009-2015，南京工业大学，化工过程机械，博士；

2005-2009，南京工业大学，过程装备与控制工程，学士。

学术兼职

Energy、Applied energy、Applied thermal engineering等杂志审稿人；无锡市特种设备专家、无锡市安全生产和应急管理专家。

研究方向

1、过程强化技术理论及应用；

2、微观混合与反应过程强化。

在研项目

国家自然科学基金面上项目

国家自然科学基金青年项目

中国博士后科学基金

江苏省特检院科研项目

江苏省食品先进制造装备技术重点实验室开放课题

江苏省过程强化与新能源装备技术重点实验室开放课题

江苏省绿色过程装备重点实验室开放课题

企业委托项目

学术成果与奖励

江苏省优秀博士论文

江苏省科技副总

LETOU国际米兰官网青年教师教学竞赛三等奖，优秀班主任，优秀毕业设计指导教师

LETOU国际米兰官网本科教学成果奖二等奖

中国大学生机械工程创新创意大赛-过程装备实践与创新赛全国一等奖、二等奖等指导教师

近期成果

发表论文30余篇，获授权专利6项，SCI他引500余次。

近期论文

1. Dongxiang Wang*, Yuqing Qiu, Zhong   Chen, et al. Characterization of Micromixing Intensification of Impinging Jet   Flow on a Spinning Disk Reactor with a Structured Surface. Industrial &   Engineering Chemistry Research [J]. 2024, 63(24): 10782-10794

2. Xinjun Yang, Xiangwei Liao, Dongxiang   Wang*, et al.  Research on influence factors of small punch test to   evaluate the mechanical properties of gradient nanostructured material [J].   Materials Research Express, 2024, 11(9): 096507.

3. Chenglong Dai, Fangyang Yuan*,   Dongxiang Wang*, et al. Settling velocity of submillimeter microplastic   fibers in still water [J]. Science of The Total Environment, 2024,907:168054.

4. Dongxiang Wang, Chengjun Gu, Cheng   Sun, Xiang Ling, Hao Peng, Xinjun Yang, Fangyang Yuan, Jiyun Du, Wei Yu. Flow   pattern transition and wave characteristics of impinging jet flow on a   spinning disk reactor [J]. Chemical Engineering Journal, 2023, 451.

5. Dongxiang Wang*, Shuang Fu, Cheng Sun,   Xiang Ling, Hao Peng, Xinjun Yang, Fangyang Yuan, Jiyun Du, Wei Yu. Turbulent   fluidization and transition velocity of Geldart B granules in a   spout–fluidized bed reactor [J]. Energy, 2023, 268.

6. Dongxiang Wang*, Haian Jin, Xiang Ling,   Hao Peng, Xinjun Yang, Fangyang Yuan, Jiyun Du, Wei Yu. Regulation of   velocity zoning behavior and hydraulic jump of impinging jet flow on a   spinning disk reactor[J]. Chemical Engineering Journal, 2020, 390:   124392.

7. Hao Peng, Xuekun Shan, Xiang Ling,   Dongxiang Wang, Juan Li. Ligament-type granulation of molten slag in   different rotary disk configurations[J]. Applied Thermal Engineering,   2018, 128: 1565-1578.

8. Hao Peng, Xiang Ling, Dongxiang Wang,   Na Wang, Experimental Investigation on Transition Characteristics of   Different Rotary Disk Configurations[J]. Industrial & Engineering   Chemistry Research, 2017, 56: 11281-11291.

9. Dongxiang Wang*, Xiang Ling, Hao Peng.   High-temperature analogy experimental investigation on dry granulating characteristic   of rotating disk for waste heat utilization of molten slag. Applied   Thermal Engineering, 2017, 125: 846-855.

10. Dongxiang Wang*, Xiang Ling, Hao   Peng. Experimental investigation of ligament formation dynamics of thin   viscous liquid film at spinning disk edge. Industrial & Engineering   Chemistry Research, 2016, 55: 9267-9275.

11. Dongxiang Wang, Xiang Ling*, Hao   Peng. Simulation of ligament mode breakup of molten slag by spinning disk in   the dry granulation process. Applied Thermal Engineering, 2015, 84:   437-447.

12. Dongxiang Wang, Xiang Ling*, Hao   Peng. Theoretical analysis of free-surface film flow on the rotary   granulating disk in waste heat recovery process of molten slag. Applied   Thermal Engineering, 2014, 63: 387-395.

13. Dongxiang Wang, Xiang Ling*, Hao   Peng. Efficiency and optimal performance evaluation of organic Rankine cycle   for low grade waste heat power generation. Energy, 2013, 50: 343-352.

14. Dongxiang Wang, Xiang Ling*, Hao   Peng. Performance analysis of double organic Rankine cycle for discontinuous   low temperature waste heat recovery. Applied Thermal Engineering,   2013, 58: 63-71.

15. Dongxiang Wang, Xiang Ling*, Hao   Peng. Cost-effectiveness performance analysis of organic Rankine cycle for   low grade heat utilization coupling with operation condition. Applied   Thermal Engineering, 2012, 48: 571-584.