Lin Zou, graduate degree, Ph.D., title: Associate Professor, research direction: CAD/CAM/CAE technology, computational fluid dynamics. Associate Professor Lin Zou graduated from Huazhong University of Science and Technology in June 2004, majoring in material processing engineering. From July 2004 to June 2007, he taught in the School of Industrial Equipment and Control Engineering of South China University of Technology, engaged in teaching and scientific research in the field of mechanical manufacturing and automation, and taught the postgraduate course Modern Design Methodology. In July 2007, she entered the School of Mechanical and Electrical Engineering of Wuhan University of Technology as a teacher. Since June 2007, he has been engaged in teaching and scientific research in the School of Mechanical and Electrical Engineering of Wuhan University of Technology. Committed to teaching undergraduate courses such as mechanical manufacturing technology foundation, fluid mechanics and hydraulic transmission, and guiding the course design of mechanical manufacturing technology foundation and computer control of mechanical system. The teaching effect is excellent. He has presided over and undertaken more than ten scientific research projects, such as the special research fund project of the Ministry of Education, the Guangdong Natural Science Fund, the key breakthrough project of Guangdong and Hong Kong, and the CERG research fund project of China Special Zone, and published more than 20 papers in authoritative or important journals at home and abroad, including SCI/EI/ISTP 10. 1. Teaching content: 1, basic course of mechanical manufacturing technology, 4 hours/week, 2 periods, 207 people; 2. Specialized course of fluid mechanics and hydraulic transmission, 3 class hours/week, 1 section, 106 students; 2. Practical teaching: 1, production practice, 3 weeks. 18 weeks, 1 session, 2 people. 3. Scientific research topic: 1. Special scientific research fund project of the Ministry of Education: "Mechanism research and optimal control of fluid crossing bionic wavy blades", 2009–2011,project leader. 2. Entrusted by the enterprise: "Research and optimal control of flow-induced vibration of butterfly valve in liquid-filled pipeline system", 2008-2009, project leader 3. Natural Science Foundation of Guangdong Province: "Study on the influence of three-dimensional hollow blow mold cavity and process parameters on product performance", 2005-2007, with 4 project leaders. The key breakthrough project of Guangdong and Hong Kong: "Research and Development of Large-scale Complex Hollow Blow Mould and Key Technologies" was ranked fourth in 2004-2007. 5. CERG research fund project of National Special Administrative Region "Experimental Research and Numerical Simulation of Square Structure with Four Cylinders in Straight Line", 2005-2007, technical director 4. Academic Papers: 1, Lin Zou, Feng and Lin Jie, Large Eddy Simulation of Flow around Cylindrical Arrays at Subcritical Reynolds Number. Journal of fluid mechanics. Volume 20 (4) in 2008: 403-413. (SCI: 382OC, ei: 0837.11529.250) 2. Lin Zou, Xia, Hu Guoan, optimization of die profile to improve die life in hot extrusion process. Journal of Materials Processing Technology, 2003, Vol. 142 (3): 659-664. (SCI: 750KV, EI: 0343.7688. 170)3. Lam, K. and Zou, L. Experimental and numerical study on the flow around four cylinders. Journal of mechanical science and technology. 2007，Vol.2 1 (9)， 1338- 1343。 (SCI: 2 10LJ) 4。 Zou Linxia, Hu Guoan, Chen Ju, Optimal Design of Extrusion Die for Aluminum Profile Based on BP Neural Network, Journal of Plastic Engineering, 2007. 10(2)42-46(EI:0430.8283 . 946)5。 Zou Linxia, Chen Ju, Hu Guoan, Application of Parallel Genetic Algorithm in Mold Cavity Shape Optimization Design, China Mechanical Engineering, 2003(24), 2077-2080 (EI: 040). Computer Application Research, 2006(7), 70-727, Zou Linxia, Hybrid Multi-objective Genetic Algorithm and Its Application in the Optimization Design of Hot Extrusion Die Cavity Shape, China Mechanical Engineering, 2006 (22) 26438+0-2679 (EI: 0704.438+0038). The influence of aspect ratio and end conditions on the development of free shear layer and the force coefficient flowing through four straight square cylinders: IUTAM Flow Control and MEMS Symposium, springer. 2008. Volume 7: 409-4 13. J. F. Morrison, D. M. Birch and P. Lavay (Editor. ) (ISTP: BHI97)9. Lin, Zou, Li, Experimental Study on Flow around Four Cylinders, 5th Asia-Pacific Space Science and Technology Conference, 20061October 30-1March 3, Guilin, China.