专业:计算机应用技术
最高学位及获取院校:博士,Eindhoven University of Technology / 埃因霍芬理工大学

主要研究兴趣
  • 科学计算及可视化
  • 计算环境流体动力学(偏微分方程数值解法,高性能计算)
  • 计算人体声学

主要讲授课程
  • 信号与系统(本科)
  • 统计数据分析(研究生)
  • 计算流体力学(研究生)

>>> 教育及工作经历

2016.07-至  今  天津大学,计算机学院,副教授,博士生导师

2015.09-2016.06  天津大学,计算机学院,助理研究员,硕士生导师

2013.01-2015.08  天津大学,超算中心,助理研究员

2012.10-2012.12  香港城市大学,深圳研究院,Research fellow,合作者:Prof. K.M. Liew 

2010.10-2011.03  诺丁汉大学,劳斯莱斯引擎研究中心,访问学者,合作者:Dr. A. Kruisbrink, Prof. F. Pearce


2008.2-2012.6  埃因霍芬理工大学, 数学与计算机系,博士,导师: Dr. A. Tijsseling , Prof. R.M.M. Mattheij

2007.4-2008.1  同济大学,桥梁工程系,博士肄业,导师:顾明

2004.9-2007.3  西北工业大学,振动工程研究所,硕士,导师:任建亭

2000.9-2004.7  西北工业大学,土木工程系,学士


>>> 主要科研项目

1. 国家自然科学基金面上项目,城市雨洪蓄排水系统中的气液混流与冲击的拉格朗日建模及实验研究(51478305),项目负责人,2015.01-2018.12

2. 教育部留学回国人员科研启动基金,液体段塞对管端结构高速冲击的计算机仿真与实验验证,项目负责人,2015.01-2016.12

3. 水利工程仿真与安全国家重点实验室开放课题项目,水轮机系统振动中水力共振机理研究(HESS-1408),项目负责人,2014.07-2016.06

4. 国家自然科学基金项目,基于超声图像的静音语音识别关键技术研究(61304250),第2完成人,2014.01-2016.12

5. 公益性行业科研专项,基于云服务的水利仿真计算系统生成平台(201401033),第4完成人,2014.01-2015.12

6. 国家自然科学基金面上项目,基于自适应频率尺度变换的骨导鼾声识别关键技术研究(61471259),第3承担人,2015.01-2018.12

7. 欧盟项目,UNSTEADAY FRICTION IN PIPES AND DUCTS(RII3-CT-2006-022441),主要完成人

8. 欧盟项目,TRANSIENT VAPOROUS AND GASEOUS CAVITATION IN PIPELINES(RII3-CT-2006-022441),主要完成人

9. 国家自然科学基金,组合结构行波与驻波杂交振动控制理论及应用技术研究(10202020),主要完成人

10. 国家自然科学基金,基于波动理论管道边界参数辨识与在线预警技术研究(50475147),主要完成人


>>> 期刊论文

[20] W. Lu, Y. Cai, J. Wei, Q. Hou*, Z. Wang and J. Dang. Simulation of heat conduction in fluids on GPU with particle method. Comput. Syst. Sci. Eng., 2017, Accepted. IF: 0.524

[19] A.S. Tijsseling, Q. Hou*, Z. Bozkus and J. Laanearu. Improved one-dimensional models for rapid emptying and filling of pipelines. ASME J. Pressure Vessel Technol., 2016, 138(3), 031301, 1-11. IF: 0.357

[18] A.S. Tijsseling, Q. Hou and Z. Bozkus. An improved 1D model for liquid slugs travelling in pipelines. ASME J. Pressure Vessel Technol., 2016, 138(1), 011301, 1-8. (SCI: 000351328000002, EI) IF: 0.357

[17] 韩江,魏建国,侯庆志*,王颂,党建武. 声道中气动声学问题的光滑粒子动力学模拟. 清华大学学报,2016, 56(11): 1242-1248.

[16] J. Laanearu, Q. Hou, I. Annus, A.S. Tijsseling. Water-column mass losses during emptying of a large-scale pipeline by pressurized air. Proceedings of the Estonian Academy of Sciences, 2015, 64(1), 8-16. (SCI: 000351328000002, EI) IF: 0.455

[15] J. Wei, S. Wang, Q. Hou*, J. Dang. Generalized finite difference time domain method and its application to acoustics. Math. Prob. Eng., 2015, 640305, 1-13. (SCI: 000357894600001, EI: 15543289) IF: 0.762

[14] Q. Hou, A.S. Tijsseling, J. Laanearu, I. Annus, T. Koppel, A. Bergant, S. Vučkovič, A. Anderson and J.M.C. van’t Westende. Experimental investigation on filling of a large-scale pipeline. ASCE J. Hydraul. Eng., 140(11), 2014, 04014053, 1-14. (SCI: 000344005700002, EI: 201448266590) IF: 1.621

[13] Q. Hou, A.C.H Kruisbrink, F. Pearce, A.S. Tijsseling and T. Yue. Smoothed particle hydrodynamics simulations of flow separation at bends. Comput. Fluids, 90, 2014, 138-146. (SCI: 000330916000014, EI: 14588910) IF: 1.619, 引用7

[12] Q. Hou, A.S. Tijsseling and Z. Bozkus. Dynamic force on an elbow caused by a traveling liquid slug. ASME J. Pressure Vessel Technol., 136(3), 2014,031302, 1-11. (SCI: 000336442100008, EI: 20141017433727)

[11] Q. Hou, L.X. Zhang, A.S. Tijsseling and A.C.H Kruisbrink. SPH simulation of free overfall in open channels with even and uneven bottom. Appl. Mech. Mater., 444-445 (2014), 889-893. (WOS: 000338974900155, EI: 14423537)

[10] A. Bergant, Q. Hou, A. Keramat and A. S. Tijsseling. Waterhammer tests in a long PVC pipeline with short steel end sections. J. Hydraul. Struct., 2014, 1(1): 23-34.

[9] A. Keramat, A.S. Tijsseling, Q. Hou and A. Ahmadi. Fluid-structure interaction with pipe-wall viscoelasticity during water hammer. J. Fluids Struct., 28 (2012) 434-455. (SCI: 000301161800027, EI: 20120414719530) IF: 2.021, 引用18

[8] J. Laanearu, I. Annus, T. Koppel, A. Bergant, S. Vučkovič, Q. Hou, A.S. Tijsseling, A. Anderson and J.M.C. van’t; Westende. Emptying of large-scale pipeline by pressurized air. ASCE, J. Hydraul. Eng., 138, 12 (2012), 1090–1100. (SCI: 000312708000009, EI: 20131816293574) IF: 1.621

[7] Q. Hou, L.X. Zhang, A.C.H Kruisbrink and A.S. Tijsseling. Rapid filling of pipelines with the SPH particle method. Procedia Eng., 31 (2012), 38–43. (WOS:00031409460007, EI: 20121114857380)

[6] 侯庆志, 任建亭, 顾明. 埋地管线轴向振动特性的行波方法分析 (Analysis of Behaviour of Axial Vibration of Buried Pipelines By Travelling Wave Method). 同济大学学报, 2009, 37(5): 618-622. (EI: 11065818)

[5] 任建亭, 侯庆志. 脉动激励下的土埋管道轴向应力分析 (Axial stress analysis of shallowly buried fluid-conveying pipeline under impulsive excitation). 岩土力学, 2008, 29(3): 645-650. (EI: 20081611206389)

[4] 侯庆志, 任建亭. 输液管线中的地震动水压力及其影响因素 (Earthquake induced hydrodynamic pressures in liquid-conveying pipeline). 振动与冲击, 2007, 26(6): 129-132. (EI: 20073110726692)

[3] 韩爱红, 武宗良, 侯庆志, 张新中. 埋地管道抗震设计参数研究. 人民黄河,2010, 4, 118-119.

[2] 袁秀霞, 武宗良, 侯庆志, 韩爱红. 土体特性对埋地管道的影响. 人民黄河,2010, 5, 103-105.

[1] J. Ren, C. Deng and Q. Hou. Vibration and sound radiation of truss core panels. Key Engineering Materials, 2007, 334-335: 969-972. (WOS: 000245033100243, EI: 20070810435365)


>>> 会议论文

[17] Q. Hou, C. Huang, J. Wei, L. Zhou, H. Duan. Meshless particle methods for solving the water hammer equations. The Second Conference of Global Chinese Scholars on Hydrodynamics (CCSH’2016) Wuxi, Jiangsu, China, November 20-23, 2016. pp 315-320.

[16] 黄春营,侯庆志,魏建国. 含有移动界面管道瞬变流的拉格朗日粒子模型. 第九届全国流体力学学术会议, 2016年10月20-23, 南京.

[15] J. Wei, W. Guan, Q. Hou*, D. Pan, W. Lu, J. Dang. A new model for acoustic wave propagation and scattering in the vocal tract. Interspeech 2016. pp 3574-3578.

[14] A.S. Tijsseling, Q. Hou and Z. Boskus. Analytical and numerical solution for a rigid liquid-column moving in a pipe with fluctuating researvoir-head and venting entrapped-gas. ASME 2016 Pressure Vessels Piping Conference, Vancouver, British Columbia, Canada, July 17-21, 2016, PVP2016-63193, pp 1-8.

[13] Z. Wang, O. Delestre, Q. Hou*, J. Wei and J. Dang. SPH simulation of pollutant transport in rivers. International Conference on Civil, Transportation and Hydraulic Engineering (ICCTHE 2016), Shenzhen, China,April 16-17, 2016, DB2609, pp 1-4.

[12] Q. Hou, S. Wang, A.C.H. Kruisbrink and A.S. Tijsseling. Lagrangian modeling of fluid transients in a pipe with entrapped air. Proceedings of BHR 12th International Conference on Pressure Surges (Editor, A. S. Tijsseling), Dublin, Nov. 18-20, 2015, pp 215-227.

[11] J. Laanearu, Q. Hou and A.S. Tijsseling. Experimental and analytical modelling study of air-water front dynamics of two-phase unsteady flows in a large-scale pressurized pipeline. Proceedings of BHR 12th International Conference on Pressure Surges (Editor, A. S. Tijsseling), Dublin, Nov. 18-20, 2015, pp 625-637.

[10] A. Bergant, R. Mavric, A. S. Tijsseling, Q. Hou, B. Svingen, Structural response of a pipeline apparatus to pulsating flow at resonance and non-resonance conditions. 6th IAHR Meeting of the Work Group, IAHRWG 2015 Ljubljana, Slovenia, September 9-11, 2015.

[9] A.S. Tijsseling, Q. Hou and Z. Boskus. Analytical solutions for liquid slugs travelling in pipelines with entrapped air. ASME 2015 Pressure Vessels, Piping Conference, Boston, July 19-23, PVP2015-45184, pp 1-8.

[8] A.S. Tijsseling, Q. Hou and Z. Boskus. An improved 1D model for liquid slugs travelling in pipelines. ASME 2014 Pressure Vessels; Piping Conference, California, July 20-24, PVP2014-28693, pp 1-7. (EI)

[7] A.S. Tijsseling, Q. Hou, B. Svingen and A. Bergant. Acoustic resonance experiments in a reservoir-pipeline-orifice system. ASME 2013 Pressure Vessels; Piping Conference, Paris, July 14-18, PVP2013-97534, pp 1-8. (EI)

[6] Q. Hou, A.C.H Kruisbrink, A.S. Tijsseling and A. Keramat. Simulating transient pipe flow with corrective smoothed particle method. BHR 11th International Conference on Pressure Surges, Lisbon, Portugal, October 24-26, BHR2012-19, pp 1-17.

[5] A.S. Tijsseling, Q. Hou, B. Svingen and A. Bergant. Acoustic resonance in a reservoir-double pipe-orifice system. ASME 2012 Pressure Vessels Piping Conference, Toronto, Ontario, Canada, July 15-19, Paper 2-78085, pp 1-8. (WOS: 000323865600028; EI: 20133716713605)

[4] A.S. Tijsseling, Q. Hou, B. Svingen and A. Bergant. Acoustic resonance in a reservoir-pipeline-orifice system. ASME 2010 Pressure Vessels Piping Conference, July 18-22, 2010 Bellevue, Washington, USA, Paper PVP2010-25083, pp. 303-314. (WOS: 000291334900040; EI: 20114514483237)

[3] A. Bergant, J.M.C. van’t Westende, T. Koppel, J. Gale, Q. Hou, Z. Pandula and A.S. Tijsseling. Water hammer and column separation due to accidental simultaneous closure of control valves in a large scale two-phase flow experimental test rig. ASME 2010 Pressure Vessels & Piping Conference, July 18-22, 2010 Bellevue, Washington, USA, Paper PVP2010-26131. (WOS:000291335500114; EI: 20114514483188)

[2] A. Bergant, Q. Hou, A. Keramat and A.S. Tijsseling. Experimental and Numerical Analysis of Water Hammer in a Large-Scale PVC Pipeline Apparatus. 4th IAHR WG Meeting, Oct. 26-27, 2011, Belgrade, Serbia.

[1] A. Vardy, A. Bergant, S. He, C. Ariyaratne, T. Koppel, I. Annus, A.S. Tijsseling and Q. Hou. Unsteady skin friction experimentation in a large diameter pipe. 3rd IAHR International Meeting of the Workgroup on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems (Editor P. Rudolf), October 14-16, 2009, Brno, Czech Republic, Paper P10, pp. 593-602.


>>> 发明专利&软件著作权

[1] 侯庆志,黄春营,沈嘉渊,魏建国,党建武. 一种新型气液混流实验装置,发明专利,申请号: 201610493512.5

[2] 侯庆志,黄春营,韩爱红,魏建国,党建武. 一种分析含截留气团管道瞬变流的无网格粒子方法,发明专利,申请号: 201610838421.0

[3] 侯庆志,沈嘉渊,韩江,魏建国. 基于SPH方法的对流扩散问题仿真系统V1.0, 软件著作权,授权号: 1222641