A numerical study of a confined turbulent wall jet with an external stream |
Yan, Zhitao
(School of Civil Engineering and Architecture, Chongqing University of Science & technology)
Zhong, Yongli (School of Civil Engineering, Chongqing University) Cheng, Xu (School of Civil Engineering, Southwest Jiaotong University) McIntyre, Rory P. (Department of Mechanical and Materials Engineering, the University of Western Ontario) Savory, Eric (Department of Mechanical and Materials Engineering, the University of Western Ontario) |
1 | Rostamy, N., Bergstrom, D.J., Deutscher, D., Sumner, D. and Bugg, J.D. (2009), "An experimental study of a plane turbulent wall jet using LDA, Paper 670, Turbulence", Heat and Mass Transfer 6, Proc. 6th Int. Symp. Turb., Heat and Mass Trans., Rome, Italy, September, Begel House Inc. |
2 | Sim, T.S., Ong, M.C., Quek, W.Y., Zheng, W.S., Lai, W.X. and Skote, M. (2016). "A numerical study of microburst-like wind load acting on different block array configurations using an impinging jet model", J. Fluid. Struct., 61, 184-204. DOI |
3 | Swean, T.F., Ramberg, S.E., Plesniak, M.W. and Stewart, M.B. (1989). "Turbulent surface jet in channel of limited depth", J. Hydrau. Eng. -ASCE, 115(12), 1587-1606. DOI |
4 | Tang, Z. and Lu, L. (2013), "A proposed model of the pressure field in a downburst", Wind Struct., 17(2), 123-133. DOI |
5 | Tangemann, R. and Gretler, W. (2000), "Numerical simulation of a two-dimensional turbulent wall jet in an external stream", Forschung Im Ingenieurwesen, 66(1), 31-39. DOI |
6 | Wilcox, D.C. (1998), Turbulence modeling for CFD (Second Edition). DCW Industries La Canada California USA. |
7 | Wilcox, D.C. (2006), Turbulence Modeling for CFD (Third Edition). DCW Industries La Canada California USA. |
8 | Wood, G.S., Kwok, K.C.S., Motteram, N.A. and Fletcher, D.F. (2001), "Physical and numerical modelling of thunderstorm downbursts", J. Wind Eng. Ind. Aerod., 89(6), 535-552. DOI |
9 | Wygnanski, I., Katz, Y. and Horev, E. (1992), "On the applicability of various scaling laws to theturbulent wall jet", J. Fluid Mech., 234, 669-90. DOI |
10 | Yan, Z.T., Zhong, Y.L. and Lin. W.E. (2018), "Evaluation of RANS and LES turbulence models for simulating a steady 2-D plane wall jet", Eng. Comput., 35 (1), 211-234. DOI |
11 | Zhou, M.D. and Wygnanski, I. (2012), "Parameters governing the turbulent wall jet in an external stream", AIAA J., 31(31), 848-853. |
12 | Banyassady, R. and Piomelli, U. (2015), "Interaction of inner and outer layers in plane and radial wall jets", J. Turbul., 16(5), 460-483. DOI |
13 | Abrahamsson, H., Johansson, B. and Lofdahl, L. (1997), "A turbulent plane two-dimensional wall-jet in a quiescent surrounding", Eur. J. Mech.s / B-Fluid., 13(5), 533-556. |
14 | Ahlman D., Brethouwer, G. and Johansson, A.V. (2007), "Direct numerical simulation of a plane turbulent wall-jet including scalar mixing", Phys. Fluid., 19, 065102. DOI |
15 | Ayech, S.B.H., Habli, S., Said, N.M., Bournot, P. and Palec, G.L. (2016), "A numerical study of a plane turbulent wall jet in a coflow stream", J. Hydro-Environ. Res., 12, 16-30. DOI |
16 | El Damatty, A. and Huang, G. (2018), "Special issue on Non-Synoptic Wind I Preface", Wind Struct., 26(3). |
17 | Bradshaw, B. and Gee, M. (1962), "Turbulent wall jets with and without an external stream", Aeronautical Research Council Report and Memoranda, No. 3252, HM Stationery Office, U.K. |
18 | Chay, M.T. and Letchford, C.W. (2002), "Pressure distributions on a cube in a simulated thunderstorm downburst. part B: moving downburst observations", J. Wind Eng. Ind. Aerod., 90(7), 733-753. DOI |
19 | Dejoan, A. and Leschziner, M.A. (2005), "Large eddy simulation of a plane turbulent wall jet", Phys. Fluid., 17, 025102. DOI |
20 | Eriksson, J.G., Karlsson, R.I. and Persson, J. (1998), "An experimental study of a two-dimensional plane turbulent wall jet", Exp. Fluids, 25(1), 50-60. DOI |
21 | Fujita, T.T. (1985), The downburst : microburst and macroburst : report of projects NIMROD and JAWS. Satellite and Mesometeorology Research Project, Dept. of the Geophysical Sciences, University of Chicago. |
22 | George, W.K., Abrahamsson, H. and Lofdahl, L. (1996), "A similarity theory for the plane wall jet", Eng. Turbul. Model. Exp., 677-686. |
23 | Huang, G., Zheng, H., Xu, Y.L. and Li, Y. (2015), "Spectrum models for nonstationary extreme winds", J. Struct. Eng.. 141(10), 04015010. DOI |
24 | Huang, G., Su, Y., Kareem, A. and Liao, H. (2015), "Time-frequency analysis of nonstationary process based on multivariate empirical mode decomposition", J. Eng. Mech.. 142(1), 04015065. |
25 | Kacker, S.C. and Whitelaw, J.H. (1971). "The turbulence characteristics of two dimensional wall-jet and wall-wake flows", J. Appl. Mech., 38(1), 239-251. DOI |
26 | Klinzing, W. and Sparrow, E. (2009), "Evaluation of turbulence models for external flows", Numer. Heat Transfer, 55(3), 205-228. DOI |
27 | Launder, B.E. and Rodi, W. (1981), "The turbulent wall jet", Prog. Aerosp. Sci., 19(79), 81-128. |
28 | Letchford, C.W. and Chay, M.T. (2002), "Pressure distributions on a cube in a simulated thunderstorm downburst-Part A: stationary downburst observations", J. Wind Eng. Ind. Aerod., 90(7), 711-732. DOI |
29 | Lin, W.E. and Savory, E. (2006), "Large-scale quasi-steady modelling of a downburst outflow using a slot jet", Wind Struct., 9(6), 419-440. DOI |
30 | Levin, O., Herbst, A.H. and Henningson, D.S. (2009), "Early turbulent evolution of the Blasius wall jet", J. Turbul., 7, (68). |
31 | Naqavi, I.Z., James C.T. and Paul G.T. (2016), "A numerical study of a plane wall jet with heat transfer", Int. J. Heat Fluid Fl., 63, 99-107. |
32 | Lin, W.E. and Savory, E. (2010), "Physical modelling of a downdraft outflow with a slot jet", Wind Struct., 13(13), 385-412. DOI |
33 | McIntyre R.P. (2011), "The effect of inlet geometry on the development of a plane wall jet", M.E.Sc. thesis, University of Western Ontario, London, Canada. |
34 | Naqavi, I.Z., Paul G.T. and Liu, Y. (2014), "Large-eddy simulation of the interaction of wall jets with external stream", Int. J. Heat Fluid Fl., 50, 431-444. DOI |
35 | Orlanski, I. (1976), "A simple boundary condition for unbounded hyperbolic flows", J. Comput. Phys., 21(3), 251-269. DOI |
36 | Pajayakrit, P. (1997), Turbulence modeling for curved wall jets under adverse pressure gradient, Ph.D. thesis, Carleton University, Ottawa, Canada. |
37 | Peng, L., Huang, G., Chen, X. and Yang, Q. (2018), "Evolutionary spectra-based time-varying coherence function and application in structural response analysis to downburst winds", J. Struct. Eng., 10.1061/(ASCE)ST.1943-541X.0002066. DOI |