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

      51. J.Zhu, X.Zhou*, H.Kikumoto, Source term estimation in the unsteady flow with dynamic mode decomposition, Sustainable Cities and Society, 115 (2024) 105843.

      50. F.Wang, X.Zhou*, H.Kikumoto, Detector configuration optimization method considering response time for spatial source parameter estimation in complex urban wind environment, Building and Environment, 265 (2024) 111997.

      49. F.Wang, X.Zhou*, T.Okaze, Detector configuration optimization based on wind tunnel tests using normalized adjoint concentration gradient for urban spatial source parameters estimation, Building and Environment, 248 (2024) 111094.

      48. X.Zhou, L.Xin*, T.Zhang, M.Gu, Modified FAE method based on CFD simulation for predicting snowdrift on gable roofs, Cold Regions Science and Technology, 2024, 218, 104093.

      47. X.Zhou, H.Chen, Y.Wu*, T.Zhang, Simulation of roof snow loads based on a multi-layer snowmelt model: Impact of building heat transfer. Building Simulation, Building Simulation, 2024, 17, 907-932.

      46. X.Zhou, T.Zhang*, Numerical simulations of wind-induced snow redistributions on large-span flat roofs: Development of snow transport along roof span, Journal of Wind Engineering and Industrial Aerodynamics, 2024, 251, 105802.

      45. T.Zhang, X.Zhou, Z.Liu*, Numerical simulation of rime ice accretion on a three-dimensional wind turbine blade using a Lagrangian approach, Frontiers of Structural and Civil Engineering, 2023, 17(12), 1895-1906.

      44.H.Ma, X.Zhou, J.Huang*, Effect of ventilation on thermal and humidity environment of the underground utility tunnel in the plum rain season in southern China: Field measurement and CFD simulation, Underground Space, 2023, 13, 301- 315.

      43.J.Zhou, X.Zhou, B.Cong*, et al. Numerical study of the convective heat transfer coefficient for steel column surrounded by localized fires[J]. Fire Safety Journal, 2023: 103987.

      42.J.Zhou, X.Zhou*, B.Cong, et al. Comparison of different CFD-FEM coupling methods in advanced structural fire analysis[J]. International Journal of Thermal Sciences, 2023, 193: 108465.

      41.T.Zhang, X.Zhou*, Numerical simulations of snow saltation over flat terrain: Development of snow transport, Journal of Wind Engineering and Industrial Aerodynamics, 2023, 240, 105472.

      40.Y.Peng, S.Liu, S.Wang, W.Zhao, J.Zhou, X.Zhou*, Reliability assessment and performance improvement of long-span roof structure subjected to coupled wind-snow multi-hazard, Cold Regions Science and Technology, 214(2023), 103958, DOI: 10.1016/j.coldregions.2023.103958.

      39. X.Zhou*, T.Zhang, A review of computational fluid dynamics simulations of wind-induced snow drifting around obstacles, Journal of wind engineering and industrial aerodynamics, 234(2023),105350, DOI: 10.1016/j.jweia.2023.105350. 

      38. X.Zhou, T.Zhang, Z.L*, M.Gu, An Eulerian-Lagrangian snow drifting model for gable roofs considering the effect of roof slope, Journal of wind engineering and industrial aerodynamics, 234(2023),105334, DOI: 10.1016/j.jweia.2023.105334. 

      37. X.Zhou, T.Zhang, Z.L*, M.Gu, A study of snow drifting on monoslope roofs during snowfall: Wind tunnel test and numerical simulation, Cold Regions Science and Technology, 206(2023),103731, DOI: 10.1016/ j.coldregions.2022.103731. 

      36. J.Zhu, X.Zhou, B.Cong*, H. Kikumoto, Estimation of the point source parameters by the adjoint equation in the time-varying atmospheric environment with unknown turn-on time, Building and Environment, 230 (2023) 110029, DOI: 10.1016/ j.buildenv.2023.110029.

      36. J.Zhou, X.Zhou*, B.Cong, et al. Simulation of steel beam under ceiling jet based on a wind-fire-structure coupling model[J]. Front. Struct. Civ. Eng. 17, 78-98 (2023).

      35.Y.Wu, X.Zhou*, Y.Zhang, M.Gu, Simulation and statistical analysis of ground snow loads based on a multi-layer snow accumulation and melt model, Structural Safety, 100 (2023) 102295, DOI: 10.1016/j.strusafe.2022.102295. 

      34. K.Zhang, X.Zhou, B.Cong*, The effect of relative humidity on vapor dispersion of liquefied natural gas: A CFD simulation using three phase change models, Journal of wind engineering and industrial aerodynamics, 230(2022),105181, DOI: 10.1016/j.jweia.2022.105181. 

      33. F.Wang, X.Zhou*, H.Kikumoto, Improvement of optimization methods in indoor time-variant source parameters estimation combining unsteady adjoint equations and flow field information, Building and Environment, 226 (2022) 109710, DOI: 10.1016/j.buildenv.2022.109710.

      32. F.Wang, X.Zhou, J.Huang*, H.Wang, H.Kikumoto, C.Deng, Natural gas leakage estimation in underground utility tunnels using Bayesian inference based on flow fields with gas jet disturbance, Process Safety and Environmental Protection, 2022, 165, 532-544. 

      31. X.Zhou, L.Xin, S.Qiang*, M.Gu, Probabilistic study of snow loads on flat roofs considering the effects of wind at representative sites in China, Structural Safety, 99 (2022) 102242, DOI: 10.1016/j.strusafe.2022.102242.

      30. L.Xin, X.Zhou*, M.Gu, Wind tunnel test and CFD simulation of the near-roof wind speed and friction velocity on gable roofs, Journal of wind engineering and industrial aerodynamics, 2022, 225, DOI10.1016/j.jweia.2022.105009. 

      29. Z.Liu, X.Zhou*, M.Gu, A numerical model for snow drifting simulations on flat roofs using Lagrangian approach, Journal of wind engineering and industrial aerodynamics, 2022, 222, DOI: 10.1016/j.jweia.2022.104922.

      28. H.Ma, X.Zhou*, Y.Tominaga, M.Gu, CFD simulation of flow fields and pollutant dispersion around a cubic building considering the effect of plume buoyancies, Building and Environment, 208 (2022) 108640, DOI10.1016/j.buildenv.2021.108640.

      27. X.Zhou, Z.Liu, W.Ma*, K.Kosugi, M.Gu, Experimental investigation of snow drifting on flat roofs during snowfall: Impact of roof span and snowfall intensity, Cold Regions Science and Technology, 2021, 190, DOI:10.1016/j.coldregions.2021.103356.

      26. X.Zhou, A.Ying, B.Cong*, H.Kikumoto, R.Ooka, L.Kang, H.Hu, Large eddy simulation of the effect of unstable thermal stratification on airflow and pollutant dispersion around a rectangular building, Journal of wind engineering and industrial aerodynamics, 2021, 211, DOI:10.1016/j.jweia.2021.104526.

      25. S.Qiang, X.Zhou*, M.Gu, L.Kang, A novel snow transport model for analytically investigating effects of wind exposure on flat roof snow load, Journal of wind engineering and industrial aerodynamics, 2021, 210, DOI: 10.1016/j.jweia.2020.104505. 

      24. X.Zhou, T.Zhang, W.Ma, Y.Quan*, M.Gu, L.Kang, Y.Yang, CFD simulation of snow redistribution on a bridge deck: Effect of barriers with different porosities, Cold Regions Science and Technology, 2021, 181.

      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, 13, 1157-1163.

      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 Hazards,2013, 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

      31.Y. Wu, X. Zhou, Simulation of roof snow loads considering building heat transfer, Proceedings of the 9th international conference on snow engineering, 3-5 June 2024, Shanghai, China, 171-178, organized by Tongji University.

      30. T. Zhang, X. Zhou, CFD simulations of snow drifting on large-span flat roofs, Proceedings of the 9th international conference on snow engineering, 3-5 June 2024, Shanghai, China, 107-114, organized by Tongji University.

      29. S. Ding, X. Zhou, A study of combination factor of wind and snow loads on photovoltaic (PV) panels based on characterization of joint wind-snow hazard:Urumqi as a case study, Proceedings of the 9th international conference on snow engineering, 3-5 June 2024, Shanghai, China, 293-300, organized by Tongji University.

      28. X.Zhou, T.Zhang, Wind tunnel simulations of snow transport on a flat roof during snowfall, The 16th International Conference on Wind Engineering, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering.

      27. L.Xin, X.Zhou, M.Gu, Modified FAE method based on CFD simulation for predicting snowdrift on gable roofs, The 16th International Conference on Wind Engineering, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering.

      26. J.Zhu, X.Zhou, The influence of turn-on time of source on the estimation of source location and release rate in time-varying flow, The 16th International Conference on Wind Engineering, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering. 

      25. F.Wang, X.Zhou, Spatial source parameters estimation in urban environment using optimization method combined with adjoint equation simulated via large eddy simulation, The 16th International Conference on Wind Engineering, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering.

      24. T.Zhang, X.Zhou, CFD simulations of snow saltation on flat terrain, 16th International Conference on Wind Engineering, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering.

      23. H.Ma, X.Zhou, CFD simulation of forced convective heat transfer in street canyon: effect of wind direction and tree planting, August 27-31, 2023, Florence, Italy, organized by Università degli Studi di Firenze and Interuniversity Research Centre on Building Aerodynamics and Wind Engineering. 

      22. Y.Wu, X.Zhou, Ground Snow Pressure Evaluation based on Energy Balance Multi-layer Snowmelt Model, JSSI & JSSE Joint Conference on Snow and Ice Research-2023 in Koriyama雪氷研究大会(2023.郡山)講演要旨集, September 3-6, 2023, 郡山Koriyama, 日本Japan, 70-70, organized by 日本雪氷学会The Japanese Society of Snow and ice and Japan Society for Snow Engineering日本雪工学会.

      21. Shan Ding, Xuanyi Zhou, Wind and snow load combination based on snowmelt model: Urumqi as a case study, JSSI & JSSE Joint Conference on Snow and Ice Research-2023 in Koriyama雪氷研究大会(2023.郡山)講演要旨集, September 3-6, 2023, 郡山Koriyama, 日本Japan, 69-69, organized by 日本雪氷学会The Japanese Society of Snow and ice and Japan Society for Snow Engineering日本雪工学会.

      20. X.Zhou, Y.Zhang, M.Gu, L.Kang, CFD simulation of wind-induced snow redistribution on gable roofs, JSSI & JSSE Joint Conference on Snow and Ice Research-2019 in Yamagata雪氷研究大会(2019.山形)講演要旨集, September 8-11, 2019, 山形Yamagata, 日本Japan, 33-33, organized by 日本雪氷学会The Japanese Society of Snow and ice and Japan Society for Snow Engineering日本雪工学会.

      19. Z.Liu, X.Zhou, M.Gu, 3D numerical simulation of rime ice on wind turbine blade, JSSI & JSSE Joint Conference on Snow and Ice Research-2019 in Yamagata雪氷研究大会(2019.山形)講演要旨集, September 8-11, 2019, 山形Yamagata, 日本Japan, 33-33, organized by 日本雪氷学会The Japanese Society of Snow and ice and Japan Society for Snow Engineering日本雪工学会.

      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 Ⅷ, 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 Ⅷ, 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 Ⅷ, 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.Gu,M. 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

      61. L.Gui, X.Zhou, M.Gu, Numerical simulation of friction velocity of flat roofs, Engineering Mechanics, 2024, 41(2) 151-159.

      60. Y.Wu, X.Zhou, Simulation of ground snow pressure based on the energy-balance snowmelt model and comparison with evaluation methods in Japanese code, China Civil Engineering Journal, https://doi.org/10.15951/j.tmgcxb.23070581.

      59. T.Zhang, X.Zhou, M.Gu, CFD Simulation Of Snow Drifting Around Bridge Deck With Different Barrier Porosities, Engineering Mechanics, 2023, 40(3) 19-25.

      58. X.Zhou, H.Ma, M.Gu, Computational Fluid Dynamics Simulation of Pollutant Dispersion Around a High-Rise Building Considering Effect of Plume Buoyancy, Journal of Tongji University, 2022, 50(6) 767-775.

      57. J.Zhu, X.Zhou, M.Gu, Source Inversion in Time-Variant Flow Field Based on Bayesian Inference, Journal of Tongji University, 2022, 50(6) 802-811.

      56. X.Zhou, F.Wang, L.Yang, M.Gu, Locating Indoor Time-Variant Contaminant Sources Based on Nelder-Mead Algorithm Using Robot Active Olfaction Method, Journal of Tongji University, 2022, 50(6) 812-820.

      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.


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