Zhou Xuanyi

Position:Professor

Degree: Doctor

  • Email:
  • Telephone:+86 138 163 80354
  • Office:State Key Laboratory of Disaster Reduction in Civil Engineering, Tongji University, Shanghai, P. R. China, 200092
  • Affiliate:Wind tunnel lab. in College of Civil Engineering

      Journal papers in English

      23. X.Zhou*, Y.Zhang, L.Kang, M.Gu, RANS CFD simulations can be successfully used for simulating snowdrift on roofs in a long period of snowstorm. Building Simulation, 2020, https://doi.org/10.1007/s12273-020-0651-0.

      22. S.Qiang, X.Zhou*, K.Kosugi, M.Gu, A study of snow drifting on a flat roof during snowfall based on simulations in a cryogenic wind tunnel, Journal of wind engineering and industrial aerodynamics, 2019, 188, 269-279.

      21. X.Zhou, Y.Zhang, L.Y.Kang*, M.Gu, CFD simulation of drifting snow loads on gable roofs: impact of roof slope, Journal of wind engineering and industrial aerodynamics, 2019, 185, 16-32.

      20. X.Zhou, Y.Zhang, M.Gu*, Coupling a snowmelt model with a snowdrift model for the study of snow distribution on roofs, Journal of wind engineering and industrial aerodynamics, 2018, 182, 235-251.

      19. L.Kang, X.Zhou*, T.Hooff, B. Blocken, M.Gu, CFD simulation of snow transport over flat, uniformly rough, open terrain: impact of physical and computational parameters, Journal of wind engineering and industrial aerodynamics, 2018, 177, 213-226.

      18. X.Zhou, G.Zu*, M.Gu, J.Hu, LES and Wind Tunnel Test on Friction Velocity on Roof Surfaces, Cold Regions Science and Technology, 2018, 151, 109-118.

      17. S.Qiang, X.Zhou*, M.Gu, Research on reliability of roof structures subjected to snow loads at representative sites in China, Cold Regions Science and Technology, 2018, 150, 62-69.

      16. X.Zhou, S.Qiang, Y.Peng, M.Gu*, Wind tunnel test on responses of a lightweight roof structure under joint action of wind and snow loads, Cold Regions Science and Technology, 2016, 132, 19-32.

      15. X.Zhou, L.Kang, X.Yuan, M.Gu*, Wind tunnel test of snow redistribution on flat roofs, Cold Regions Science and Technology, 2016, 127, 49-56.

      14. X.Zhou, L.Kang, M.Gu*, L.Qiu, J.H.Hu, Numerical simulation and wind tunnel test for redistribution of snow on flat roofs, Journal of wind engineering and industrial aerodynamics, 2016, 153, 92-105.

      13. W.Sun, M.Gu, X.Zhou*, Universal Equivalent Static Wind Loads of Fluctuating Wind Loads on Large-Span Roofs Based on POD Compensation, Advances in Structural Engineering, 2015, 18(9) 1443-1459.

      12. X.Zhou, J.Li, M.Gu*, L.Sun, A new simulation method on sliding snow load on sloped roofs, Natural Hazards, 2015, 77(1) 39-65.

      11. X.Zhou, Y.Lin, M.Gu*, Optimization of multiple tuned mass dampers for large-span roof structures subjected to wind loads, Wind and Structures, 2015, 20(3) 363-388.

      10. X.Zhou, J.Hu, M.Gu*, Wind tunnel test of snow loads on a stepped flat roof using different granular materials, Natural Hazards, 2014, 74(3) 1629-1648.

      09. X.Zhou, M.Gu*, G.Li, Constrained Least-Squares Method for Computing Equivalent Static Wind Loads of Large-span Roofs, Advances in Structural Engineering, 2014, 17(10) 1497-1515.

      08. X.Zhou, Y.Zhang, M.Gu*, Simulation Method of sliding Snow Load on Roofs and its application in Some Representative Regions of China, Natural Hazards2013, 67(2) 295-320.

      07.X.Zhou, Z.Han, M.Gu*, A.Zhang, W.Zhang, W.Fang, Research on Wind-induced Responses of a Large-scale Membrane Structure, Earthquake Engineering and Engineering Vibration, 2013, 12(2) 297-305.

      06. P.Huang, X.Zhou, M.Gu*, Experimental study of wind loads on cylindrical reticulated shells, Applied Mathematics and Mechanics (English Edition) , 2013, 34(3) 281-296.

      05. X.Zhou, M.Gu*, G.Li, Grouping Response Method for Equivalent Static Wind Loads Based on Modified LRC Method, Earthquake Engineering and Engineering Vibration, 2012, 11(1) 107-119.

      04. X.Zhou, P.Huang, M.Gu*, F.Mi, Wind Loads and Responses of Two Neighboring Dry Coal Sheds, Advances in Structural Engineering, 2011, 14(2) 207-221.

      03. X.Zhou, M.Gu*, An Approximation Method for Computing the Dynamic Responses and Equivalent Static Wind Loads of Large-span Roof Structures , International Journal of Structural Stability and Dynamics, 2010, 10(5) 1141-1165.

      02. X.Zhou, P.Huang, M.Gu*, L.Zhu, H.M. Pan, Wind loads and wind-induced responses of Guangzhou New TV Tower, Advances in Structural Engineering, 2010, 13(4) 707-726.

      01. M.Gu*, X.Zhou, An approximation method for resonant response with coupling modes of structures under wind action, Journal of wind engineering and industrial aerodynamics, 2009, 97(11-12) 573-580.

      Conference papers in English

      18. Z.Liu, X.Zhou, M.Gu, H.Ma, 3D numerical simulation of rime ice on wind turbine blade, The 15th International Conference on Wind Engineering, September 1-6, 2019, Beijing, China, 307-308, organized by Beijing Jiaotong University and Tongji University.

      17. X.Zhou, Y.Zhang, M.Gu, L.Kang, CFD simulation of wind-induced snow redistribution on gable roofs, The 15th International Conference on Wind Engineering, September 1-6, 2019, Beijing, China, 611-612, organized by Tongji University and Beijing Jiaotong University.

      16. X.Zhou, Y.Zhang, M.Gu, Simulation of snow load based on a multi-layer snowmelt model, International Workshop on Wind-Related Disasters and Mitigation, 11-14 March 2018, Sendai, Japan, 71-71, organized by Organizing Committee of WRDM.

      15. X.Zhou, J.Li, P.Huang, M.Gu, L.Sun, A new method of predicting slide snow load for sloped roofs, Snow Engineering , 14-17 June 2016, Nantes, France, 174-178.

      14. L.Kang, X.Zhou, M.Gu, A new method for predicting snowdrift on flat roofs, Snow Engineering , 14-17 June 2016, Nantes, France, 137-141.

      13. S.Qiang, X.Zhou, M.Gu, Research on reliability of roof structures designed by Chinese codes, Snow Engineering , 14-17 June 2016, Nantes, France, 101-105.

      12. X.Zhou, J.Li, M.Gu, A prediction method of slide snow/ice load applied to roofs, Proceedings of the 16th International Workshop on Atmospheric Icing of Structures, IWAIS 2015, 28 June -3 July 2015, Uppsala, Sweden, organized by WindEn Company.‍‍‍‍‍

      11. L.Kang, X.Zhou, M.Gu, Influence of Roof Slope on Snow Redistribution of Gable Roof, The 6th International Symposium on Computational Wind Engineering, 8-12 June 2014, Hamburg, Germany, 114-115.‍‍‍‍‍

      10. X.Zhou, Y.Zhang, M.Gu, Simulation on Sliding Snow Load on Roofs, 1st International Conference on Computational Engineering and Science for Safety and Environmental Problems (COMPSAFE 2014), 13-16 April 2014, Sendai, Japan, 245-247.‍‍‍‍‍

      09. X.Zhou, M.Gu, G.Li, ESWL for Large-span Roof Based on Grouping Response Method, The Eighth Asia-Pacific Conference on Wind Engineering, 10-14 December 2013, Chennai, India, 3-6.

      08. X.Zhou, X.Li, M.Gu, etc., A New Two-equation Model for Numerical Simulation on Snow Drifting, Snow Engineering 7, 6-8 June 2012, Fukui, Japan.

      07. X.Zhou, Z.Han, M.Gu, P.Huang, Y.Quan, Analysis of Wind-induced Responses of a Large-scale Membrane Structure, IABSE-IASS Symposium London 2011, 20-23 September 2011, London, U.K., organized by the UK Group of IABSE and IASS with Brintex Events, 154-154.

      06. X.Zhou, M.Gu, G.Li, Application Research of Constrained Least-Squares Method in Computing Equivalent Static Wind Loads, The 13th International Conference on Wind Engineering, 10-15 July 2011, Amsterdam, Netherlands, organized by the Dutch-Flemish Wind Engineering Association.

      05. K.Yan, X.Zhou, M.GuM. Kaspershki, wind-induced snow load simulation on gable roof, The Fifth International Symposium on Computation Wind Engineering, May 23-27 2010, North Carolina, organized by United States Association for Wind Engineering Society.

      04. X.Zhou, M.Gu, F.Mi, P.Huang, Analysis of Wind-induced Responses of Dry Coal Shed Under Interference Condition, The 4th International Conference on Advances in Wind and Structures, 29-31 May 2008, Jeju, Korea, 1855-1863.

      03. X.Zhou, M.Gu, Equivalent Static Wind Loads of Large-span Roof Structures, The 12th International Conference on Wind Engineering, 1-6 July 2007, Cairns, Australia, 431-438.

      02. X.Zhou, M.Gu, Numerical Simulation of Snow Drift on the Surface of a large-span Roof Structure, The Fourth International Symposium on Computation Wind Engineering, July 2006, Yokohama, Japan, 889-892.

      01. X.Zhou, M.Gu, Prediction of Wind Load on Large-span Roofs Using Artificial Neural Networks, Proceedings of the Sixth Asia-Pacific Conference on Wind Engineering, September 2005, Seoul, KOREA, 1682-1691.

      Journal papers in Chinese

      55. X.Zhou, J.Li, L.Sun, M.Gu, Simulation study on characteristics of thermal pressure distribution of elevators in super high-rise buildings, Building Structure, 2018, 48(9)67-71, 61.

      54. X.Zhou, X.Hu, M.Gu, X.Hu, Study on wind-induced snow redistribution considering modification of friction velocity, Engineering Mechanics, 2017, 34(10) 19-25.

      53. X.Zhou, M.Tan, K.Yan, M.Gu, X.Hu, Lagrangian method modeling and field measurement on snowdrift, Engineering Mechanics, 2017, 34(2) 21-27.

      52. L.Kang, X.Zhou, M.Gu, Numerical simulation method about snowdrift on roofs with consideration of repose angle of snow, Journal of Tongji University, 2016, 44(4) 11-15.

      51. X.Zhou, G.Zu, M.Gu, Large eddy simulation and wind tunnel test on TTU building model, Engineering Mechanics, 2016, 33(2) 104-110.

      50. X.Zhou, Y.Lin, M.Gu, Optimum properties of MTMD for large-span roof subjected to wind loads, Journal of Vibration Engineering, 2015, 28(2) 277-284.

      49. X.Zhou, C.Liu, M.Gu, M.Tan, Application of Lagrangian method to snowdrift model, Engineering Mechanics, 2015, 32(1) 36-42.

      48. X.Zhou, Y.Zhang, M.Gu, L.Sun, Simplified calculation formula on Sliding Snow Load on Roof, Journal of Tongji University, 2014, 42(12) 1833-1839.

      47. X.Zhou, Y.Zhang, M.Gu, Method for simulating sliding snow loads on roofs, Engineering Mechanics, 2014, 31(6) 190-196.

      46. J.Hu, X.Zhou, M.Gu, Research on static response and stability of gable frames under snow load based on different load codes, Steel Construction, 2013, 28(5)47-53.

      45. Y.Lin, X.Zhou, M.Gu, MTMD Control Analysis of Cylindrical Lattice Roof Structure for Wind-induced Vibration, Structural Engineers, 2013, 29(2)114-121.

      44. X.Zhou, C.Liu, M.Gu, Numerical simulation on movement characteristics of saltating snow particles, Journal of Tongji University, 2013, 41(4) 522-529, 546.

      43. X.Zhou, X.Li, M.Gu, Y.Zhang, Two-equation model for numerical simulation on snow drifting, Acta Aerodynamica Sinica, 2012, 30(5) 640-645, 652.

      42. W.Sun, X.Zhou, M.Gu, Equivalent Static Wind Loads of Fluctuating Wind on Large-span Roofs Based on Compensated Method, Journal of Vibration Engineering, 2011, 24(6) 658-663.

      41. X.Li, X.Zhou, M.Gu, A study on the self-sustaining equilibrium boundary condition of numerical simulation on snow drifting, Acta Aerodynamica Sinica, 2011, 29(6) 765-769.

      40. Y.Huang, M.Gu, X.Zhou, Influence of snow-drifting on dynamic stability of a spatial structure, Journal of Vibration and Shock, 2011, 30 (2) 124-129. 

      39. X.Zhou, G.Li, Application of POD combined with thin-plate splines in research on wind pressure, Building Structure, 2011, 41(6) 98-102, 109.

      38. Y.Huang, M.Gu, X.Zhou, Dynamic-instability-based Equivalent Static Wind Loads on Spatial Structure, Journal of Tongji University, 2011, 39(5) 637-642.

      37. Z.Han, X.Zhou, M.Gu, A.Zhang, W.Zhang, W.Fang, Analysis & Comparison of Wind-induced Responses of Sun-Valley Structure of Expo Axis Using Frequency and Time Domain Methods, Journal of Vibration and Shock, 2011, 30 (5) 230-235.

      36. W.Sun, X.Zhou, M.Gu, Equivalent Static Wind Loads of Fluctuating Wind on Large-span Roofs Based on Eigen-mode Compensation, Engineering Mechanics, 2011, 28 (4) 96-101.

      35. X.Zhou, M.Gu, J.Zang, Y.Quan, K.Yan, Research on wind pressure of Terminal 3 in Shenzhen International Airport, Building Structure, 2011, 41(1)122-125.

      34. X.Li, H.Li, X.Zhou, Numerical Simulation on Snow Drifting for a Large Cantilevered Stadium, Structural Engineers, 2010, 26(6)64-69.

      33. X.Zhou, M.Gu, G.Li, Weighted Constrained least squares method for Calculating Equivalent Static Wind Loads of Large-span Roof, Journal of Tongji University, 2010. 38(10) 1403-1408.

      32. X.Zhou, K.Yan, M.Gu, Y.Feng, Wind Load Characteristics of Roof Surface of Certain Terminal, Journal of Vibration and Shock, 2010, 29 (8) 224-227, 254.

      X.Li, X.Zhou, M.Gu, Y.Uematsu, Numerical Simulation on Snow Drifting around a Cube Model, Journal of Tongji University, 2010. 38(8) 1135-1140.

      30. X.Zhou, M.Gu, F.Mi, P.Huang, Analysis of Wind-induced Responses of Dry Coal Sheds under Interference Condition, Journal of Tongji University, 2010, 38(6) 817-826.

      29. X.Zhou, M.Gu, G.Li, Response Grouping Method for Calculating Equivalent Static Wind Loads Based on Modified LRC, Journal of Vibration Engineering, 2010, 23(2) 158-166.

      28. Z.Han, X.Zhou, M.Gu, W.Zhang, Comparison of Linear and Nonlinear Wind-induced Responses of a Structure of Expo Axis , Journal of Vibration and Shock, 2009, 28 (12) 155-159, 209.

      27. X.Zhou, M.Gu, F.Mi, P.Huang, Interference Effects on Wind-induced Responses of Dry Coal Sheds, Journal of Vibration Engineering, 2009, 22(6) 652-658.

      26. D.Zheng, M.Gu, X.Zhou, W.Zhang, Numerical simulation of mean wind pressure on membrane roof of EXPO-axis, Journal of Building Structures, 2009, 30 (5) 212-219.

      25. X.Zhou, M.Gu, L.Zhu, P.Huang, Wind Tunnel Force Balance Test and Wind-induced Responses of the Guangzhou New TV Tower Structure Ⅱ: Analysis on Wind-induced Responses, China Civil Engineering Journal, 2009, 42(7)14-20.

      24. M.Gu, P.Huang, X.Zhou, L.Zhu, Research on Wind Tunnel Force Balance Test and Wind-induced Responses of Guangzhou New TV Tower Structure I: Wind Tunnel Test, China Civil Engineering Journal, 2009, 42(7)8-13.

      23. X.Zhou, M.Gu, Y.Huang, C.Shang, Wind-induced Responses of a Stadium Canopy Roof Based on Non-steady Wind Pressure, Journal of Tongji University, 2008, 36(11)1490-1495.

      22. X.Zhou, M.Gu, W.Ma, Z.Fan, Wind-induced Responses of Multi-tower Structure, Journal of Vibration Engineering, 2008, 21(4) 349-353.

      21. X.Zhou, M.Gu, Simulation of the wind-induced snowdrift: state of the art, Engineering Mechanics, 2008, 25 (7) 5-10, 17.

      20. X.Li, X.Zhou, M.Gu, Study on Snow Loads on the Roof of Beijing South Station, Building Structure, 2008, 38(5)109-112.

      19. Z.Han, X.Zhou, M.Gu, Computations of Wind Pressure and Buffeting Responses of a Curtain Wall, Journal of Vibration and Shock, 2008, 27 (5) 40-43, 172.

      18. X.Zhou, M.Gu, X.Li, Study on Wind-induced Snow Pressure on Large-span Roof, Journal of Building Structures, 2008, 29 (2) 7-12.

      17. X.Zhou, M.Gu, Y.Li, etc, Wind-induced responses analysis for a large-scale museum structure, Journal of Vibration and Shock, 2008, 27(2)25-28, 33, 173.

      16. X.Zhou, M.Gu, Z.Zhu, K.Huang, Study on Snow Loads on Roof of Terminal 3 in Beijing Capital International Airport, Journal of Tongji University, 2007, 35(9)1193-1196.

      15. X.Zhou, P.Huang, M.Gu, Wind-induced interference effects on a tall building with two towers , China Civil Engineering Journal, 2007, 40(8)16-21.

      14. F.Mi, X.Zhou, M.Gu, Analysis of Wind-induced Buffeting Responses of reticulated cylindrical shells, Journal of Vibration and Shock, 2007, 26(7)32-35, 39.

      13. X.Zhou, P.Huang, M.Gu, Testing study on wind pressure behaviors of roof of Shanghai South Railway Station, Building Structure, 2007, 37(2)118-120.

      12. X.Zhou, M.Gu, Test Study of the Pneumatic-averaged Property of Manifold, Journal of Tongji University, 2007, 35(1)32-36.

      11. M.Gu, X.Zhou, Equivalent Static Wind Loads of Large-span Roof Structures, Journal of Building Structures, 2007, 28 (1) 125-129.

      10. M.Gu, X.Zhou, P.Huang, Research on Wind-induced Buffeting Responses of Long-span Roof Structure, China Civil Engineering Journal, 2006, 39 (11) 37-42.

      09. X.Zhou, M.Gu, Analytical Approach Considering Modal Coupling Effects for Buffeting Resonant Response of Large-span Roof Structures, Journal of Vibration Engineering, 2006, 19 (2) 179-183.

      08. X.Zhou, M.Gu, Parametric Analysis of Wind-induced Buffeting Responses of the Roof Structure of Shanghai South Railway Station, Journal of Tongji University, 2006, 34 (5) 574-579.

      07. X.Zhou, M.Gu, Parametric Analysis of Parallel Tube-Manifold System, Journal of Tongji University, 2005, 33(8)1001-1006.

      06. M.Gu, P.Huang, X.Zhou, etc, A Study on Wind Loads and Responses of Terminal 3 at Beijing Capital Airport, China Civil Engineering Journal, 2005, 38 (1) 40-44.

      05. X.Zhou, M.Gu, Research on Theoretical Representation of Dissipative Model of Parallel Tube-Manifold systems, Journal of Vibration and Shock, 2004, 23(3)79-82.

      04. Y.Wang, X.Zhou, M.Gu, Wind-induced vibration analysis of stay rods of container crane, Structural Engineers, 2004, 271-279. (supplement)

      03. M.Gu, X.Zhou, Application of neural network in the prediction of wind load on long-span roofs, Engineering Mechanics, 2003, 20(4) 99-103.

      02. X.Zhou, M.Gu, Optimization of dynamic pressure measurement of single-channel tubing systems, Journal of Tongji University, 2003, 31(7) 798-802.

      01. X.Zhou, M.Gu, Test study of wind pressure coefficient on long-span roof, Journal of Tongj University, 2002, 30(12) 1423-1428.

    The Last Update Time:--
    All contents  copyright 2020. All rights reserved   Support by: Wei Cheng 1239 Siping Road, Shanghai, 200092, PR China Tongji University