Curriculum Vitae

Liu Houlin 

Doctor of Engineering

Professor

TEL: 13952845080

Email: liuhoulin@ujs.edu.cn

Location: Room 202, Research Center of Fluid Machinery Engineering and Technology, Jiangsu University

Biography

Fields of research:

1. Engineering design (high efficiency and energy saving, low NPSH, low noise, low specific speed, multi working condition, multiphase flow, no blockage, no overload, no hump and other pump products; pump device and system; pump test bench; water turbine; shock absorption bracket; low noise multi leaf fan; intelligent toilet nozzle; aerator)

2. Numerical calculation and simulation (pump energy performance, cavitation performance, vortex structure, vibration, noise; pump device; laser dye pool; fire water curtain)

3. Software development (pump hydraulic design, 3D modeling, grid division, CFD, PIV test, performance test, online detection, fault diagnosis, life prediction, product selection; mechanical seal material defect image recognition; cleaning rate image recognition). PCAD, a pump hydraulic design software, has more than 200 legitimate users and has a wide range of influence.

Granted Projects:

1. National Science and technology support plan (2013bak06b02): research and development of permeable and rapid rescue and drainage equipment for coal mines, 2013.01-2015.12, presided over.

2. National Science and technology support plan (2011baf14b03): key technology research and engineering application of marine centrifugal pump and magnetic pump, 2011.10-2014.12, presided over.

3. National key R & D plan (2016yfb020901): fine modeling and highly scalable parallel algorithm for complex flow of large fluid machinery, 2016.07-2020.12, task leader.

Main Publications:

[1] Liu Houlin, Liu Mingming, Bai Yu, Effects of mesh style and grid convergence on numerical simulation accuracy of centrifugal pump, Journal of Central South University of Technology,2015,22（1）:368-376. SCI

[2] Liu Houlin, Wang Jian, Wang Yong, Partially-averaged Navier-Stokes model for predicting cavitating flow in centrifugal pump, Engineering Applications of Computational Fluid Mechanics, 2014, 8(2):319-329. SCI

[3] Liu Houlin, Ren Yun, Wu Denghao, Yang Hongbin, Tan Minggao, Improvement of SIMPLE algorithm in centrifugal pump for CFD, Applied Mathematics and Information Sciences,2013,7(5):1845-1856. SCI

[4] Liu Houlin, Ding Jian, Dai Hanwei, Investigation into transient flow in a centrifugal pump with wear ring clearance variation, Advances in Mechanical Engineering, 2014, 2014(4):1-15. SCI

[5] Liu Houlin, Lu Mingzhen, Tan Minggao, Dong Liang, Ren Yun, The research on Tetrahedral mesh optimization algorithm of the double channel pump, Applied Mathematics & Information Sciences,2014,8(3):1-7. SCI

[6] Liu Houlin, Liu Dongxi, Wang Yong, Wu Xianfang, Wang Jian, Du Hui, Experimental investigation and numerical analysis of unsteady attached sheet-cavitating flows in a centrifugal pump, Journal of Hydrodynamics,2013,25(3):370-378. SCI

[7] Liu Houlin, Wang Jian, Wang Yong, Influence of the empirical coefficients of cavitation model on predicting cavitating flow in centrifugal pump ,International Journal of Naval Architecture and Ocean Engineering,2014,6(1). SCI

[8] Hou-lin Liu, Cui Dai,Liang Dong, Ming-gao Tan, A novel mesh quality improvement method for boundary elements ,Journal of Applied Mathematics,2012,2012(109542). SCI