唐小南
博士
土木工程系高级副教授
Xiao.Tang@xjtlu.edu.cn
Xiao.Tang@xjtlu.edu.cn
唐小南教授同时也是IAHR (国际水利与环境工程学会)会员,中国环境力学特邀会员,英国高等教育协会会员。
发表文献
- Tang, X., Guan, Y., Hu, Y. (2021). Velocity profile and lateral distribution in an open channel with two distinct vegetative zones. The 7th International Conference on Water Resource and Environment (WRE 2021), Nov. 1-4, Xi’an, China.
- Tang, X., Guan, Y., Rahimi, H., Singh, P., Zhang, Y. (2021). Discharge and velocity variation of flows in open channels partially covered with different layered vegetation. International Conference on Environmental Engineering, Agricultural Pollution and Hydraulical Studies (EEAPHS 2021), May 29-30, 2021, Wuhan, China. DOI: 10.1051/e3sconf/202126903001.
- Tang, X., Rahimi, H.R., Guan, Y., Wang, Y. (2021). Hydraulic characteristics of open-channel flow with partially-placed double layer vegetation. Environmental Fluid Mechanics, Springer, 21 (2): 317–342;
- Singh, P., Tang, X., Rahimi H.R. (2020). Modelling of the apparent shear stress for predicting zonal discharge in rough and smooth asymmetric compound open channels. In River Flow 2020, Proceedings of the 10th Conference on Fluvial Hydraulics, 7-10 July, Delft, The Netherlands. DOI: 10.1201/b22619.
- Singh, P., Tang, X. (2020). Zonal and overall discharge prediction using momentum exchange in smooth and rough asymmetric compound channel flows. Journal of Irrigation and Drainage Engineering, ASCE, 146(9):1-13, 05020003;
- Rahimi, H.R., Tang, X., Singh, P., Li, M., Alaghmand, S. (2020). Open channel flow within and above a layered vegetation: Experiments and first-order closure modeling. Advances in Water Resources, 137(3), 103527, DOI:10.1016/j.advwatres.2020.103527
- Mahmoud, S., Tang, X. (2015). Monitoring prospective sites for rainwater harvesting and stormwater management in the United Kingdom using a GIS-based decision support system. Environmental Earth Sciences, 73 (12): 8621–8638;
- Tang, X., Ali, S. (2013). Evaluation of methods for predicting velocity profiles in open channel flows with submerged rigid vegetation. Proceedings of the 35th IAHR World Congress, Vol.4, B1, A11218, 1-12, Sept. 8-13, 2013, Chengdu, China.
- Ghani, U., Tang, X. (2013). Examination of entrance length in open channels by CFD modelling. Proceedings of the 35th IAHR World Congress, Wang (Eds.) Vol.5, C3, A11532, 1-7, Sept. 8-13, 2013, Chengdu, China.
- Zahiri, A., Tang, X., Azamathulla, H. Md. (2014). Mathematical modelling of flow discharge over compound sharp-crested weirs. Journal of Hydro-Environment Research, 8 (3): 194-199
- Tang, X., Sterling, M., Knight, D.W. (2010). A general analytical model for lateral velocity distributions in vegetated channels. In River Flow 2010, Dittrich, A. Koll ,K. et al. (Editors), 1: 469-476.
- Knight, D.W., Tang, X. and McGahey, C. (2007). A method for analysing stage-discharge, velocity and boundary shear stress data for rivers in flood. In Sustainable Water Management and River Development [Eds Lin Luo & Shaw Lei Yu], Vol. I: 52-64. Sichuan University Press.
- Tang, X., Knight, D.W. (2006). Sediment transport in river models with overbank flows. Journal of Hydraulic Engineering, 132(1): 77-86.
- Yin, X. and Tang, X. (2017), Fluid Mechanics in Civil Engineering, South China University of Technology Press, Guangzhou, pp 1-317, ISBN 978-7-5623-5474-1.
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研究领域
明渠水流(复式河道水流与植被水流),河流水动力学与泥沙工程,环境水力学,CFD模拟及其应用,洪水与水环境分析与评估
应用场景
海绵城市,河道水生态修复,城市河道设计,河湖水循环与水环境评估,河流与水利工程,流体对建筑物的影响等
工作经历
2015-现在,西交利物浦大学;
1999-2015,英国伯明翰大学;
1989-1995,南京水利科学研究院
1999-2015,英国伯明翰大学;
1989-1995,南京水利科学研究院
教育背景
1999年,英国伯明翰大学,博士;
1989年,南京水利科学研究院,硕士;
1986 年,武汉水利电利大学(现武汉大学),学士;
1989年,南京水利科学研究院,硕士;
1986 年,武汉水利电利大学(现武汉大学),学士;
科研项目
1. 2021 – 2024 “Study on the effect of partially multi-layered vegetation on open-channel flows”, Postgraduate Research Scholarship Fund (XJTLU), PGRS2012007;
2. 2021 – 2024 “Permeable pavement as a sustainable method for urban flooding and pollution management system in Wujiang, China”, Postgraduate Research Scholarship Fund (XJTLU), FOSLG210403;
3. 2021 – 2024 "Three-dimensional simulation of wave-induced scour erosion around a cylinder", Research Development Fund of XJTLU, RDF-20-01-09;
4. 2018 – 2021 "Study on the flow structure of asymmetric compound channel", National Natural Science Foundation of China (NSFC) - general program, 11772270;
5. 2017 – 2020 “Effect of vegetation patch on compound channel flows”, Research Development Fund (XJTLU), RDF-16-02-02;
6. 2016 – 2019 “The impact of mixed layer vegetation on open-channel flow”, Research Development Fund (XJTLU), RDF-15-01-10;
7. 2009 – 2011 “Study of lateral velocity and boundary shear stress distribution in vegetated river flow”, Open fund of State key laboratory of hydraulics and mountain river, Sichuan University, China, SKLH-OF-0906;
8. 2007 – 2010 “New approaches to estimating flood flows via surface videography and 2D & 3D modelling”, EPSRC (UK), EP/E003915;
9. 2002 – 2005 “CFD Modelling of open channel flow to illustrate the effects of shape and heterogeneous roughness”, EPSRC (UK), GR/R433716;
10.1999 – 2002 “Sediment transport in river models with overbank flow”, EPSRC (UK), GR/M41797
2. 2021 – 2024 “Permeable pavement as a sustainable method for urban flooding and pollution management system in Wujiang, China”, Postgraduate Research Scholarship Fund (XJTLU), FOSLG210403;
3. 2021 – 2024 "Three-dimensional simulation of wave-induced scour erosion around a cylinder", Research Development Fund of XJTLU, RDF-20-01-09;
4. 2018 – 2021 "Study on the flow structure of asymmetric compound channel", National Natural Science Foundation of China (NSFC) - general program, 11772270;
5. 2017 – 2020 “Effect of vegetation patch on compound channel flows”, Research Development Fund (XJTLU), RDF-16-02-02;
6. 2016 – 2019 “The impact of mixed layer vegetation on open-channel flow”, Research Development Fund (XJTLU), RDF-15-01-10;
7. 2009 – 2011 “Study of lateral velocity and boundary shear stress distribution in vegetated river flow”, Open fund of State key laboratory of hydraulics and mountain river, Sichuan University, China, SKLH-OF-0906;
8. 2007 – 2010 “New approaches to estimating flood flows via surface videography and 2D & 3D modelling”, EPSRC (UK), EP/E003915;
9. 2002 – 2005 “CFD Modelling of open channel flow to illustrate the effects of shape and heterogeneous roughness”, EPSRC (UK), GR/R433716;
10.1999 – 2002 “Sediment transport in river models with overbank flow”, EPSRC (UK), GR/M41797
产学研合作
1. 2010 – 2011“CFD analysis of interior air and heat distribution of a 7-store building by various designs of glazing windows”, Clarke Bond’s industrial project, CB0011/01
2. 2020 – 2020 "Optimising Structure of River Networks in Wujiang", Industrial Project of XJTLU Urban and Environmental Studies University Research Centre (UES), RDH-101-2020-0044;
3. 2019 – 2021 "Flow discharge assessment for floodplains with transplanted trees and effects of inundation on modelled land characteristics", Key Special Research Fund in XJTLU, KSF-E-17
2. 2020 – 2020 "Optimising Structure of River Networks in Wujiang", Industrial Project of XJTLU Urban and Environmental Studies University Research Centre (UES), RDH-101-2020-0044;
3. 2019 – 2021 "Flow discharge assessment for floodplains with transplanted trees and effects of inundation on modelled land characteristics", Key Special Research Fund in XJTLU, KSF-E-17
专利项目
无
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