User menu

Aircraft wake vortices in stably stratified and weakly turbulent atmospheres: simulation and modeling

Bibliographic reference De Visscher, Ivan ; Bricteux, Laurent ; Winckelmans, Grégoire. Aircraft wake vortices in stably stratified and weakly turbulent atmospheres: simulation and modeling. In: AIAA Journal : devoted to aerospace research and development, Vol. 51, no. 3, p. 551-566 (2013)
Permanent URL
  1. Spalart Philippe R., AIRPLANE TRAILING VORTICES, 10.1146/annurev.fluid.30.1.107
  2. Gerz Thomas, Holzäpfel Frank, Darracq Denis, Commercial aircraft wake vortices, 10.1016/s0376-0421(02)00004-0
  3. Scorer R. S., Davenport L. J., Contrails and aircraft downwash, 10.1017/s0022112070002501
  4. Hill F. M., A numerical study of the descent of a vortex pair in a stably stratified atmosphere, 10.1017/s0022112075002406
  5. Hecht A. M., Bilanin A. J., Hirsh J. E., Snedeker R. S., Turbulent Vortices in Stratified Fluids, 10.2514/3.50814
  6. Hecht A. M., Bilanin A. J., Hirsh J. E., Turbulent Trailing Vortices in Stratified Fluids, 10.2514/3.50992
  7. Spalart Philippe R., On the motion of laminar wing wakes in a stratified fluid, 10.1017/s002211209600849x
  8. GARTEN J. F., ARENDT S., FRITTS D. C., WERNE J., Dynamics of counter-rotating vortex pairs in stratified and sheared environments, 10.1017/s0022112098008684
  9. Holzäpfel F, Gerz T, Two-dimensional wake vortex physics in the stably stratified atmosphere, 10.1016/s1270-9638(00)86962-x
  10. Saffman P. G., The Motion of a Vortex Pair in a Stratified Atmosphere, 10.1002/sapm1972512107
  11. CrowS. C. “Motion of a Vortex Pair in a Stably Stratified Fluid,” Poseidon Research Rept. 1, Santa Monica, CA, 1974.
  12. NOMURA KEIKO K., TSUTSUI HIDEAKI, MAHONEY DANIEL, ROTTMAN JAMES W., Short-wavelength instability and decay of a vortex pair in a stratified fluid, 10.1017/s0022112006008883
  13. CROW S. C., Stability theory for a pair of trailing vortices, 10.2514/3.6083
  14. Sarpkaya Turgut, Trailing vortices in homogeneous and density-stratified media, 10.1017/s0022112083002074
  15. Delisi Donald P., Robins Robert E., Short-Scale Instabilities in Trailing Wake Vortices in a Stratified Fluid, 10.2514/2.845
  16. Delisi Donald, Laboratory Measurements of the Circulation Decay of Vortices Generated From a Lifting Wing, 10.2514/6.2011-3034
  17. GARTEN J. F., WERNE J., FRITTS D. C., ARENDT S., Direct numerical simulations of the Crow instability and subsequent vortex reconnection in a stratified fluid, 10.1017/s0022112000002251
  18. Lewellen D. C., Lewellen W. S., Large-eddy simulations of the vortex-pair breakup in aircraft wakes, 10.2514/3.13399
  19. Lewellen D. C., Lewellen W. S., Poole L. R., DeCoursey R. J., Hansen G. M., Hostetler C. A., Kent G. S., Large-Eddy Simulations and Lidar Measurements of Vortex-Pair Breakup in Aircraft Wakes, 10.2514/2.535
  20. Robins Robert E., Delisi Donald P., Numerical Simulation of Three-Dimensional Trailing Vortex Evolution in Stratified Fluid, 10.2514/2.468
  21. Switzer George, Proctor Fred, Numerical study of wake vortex behavior in turbulent domains with ambient stratification, 10.2514/6.2000-755
  22. Holzäpfel Frank, Gerz Thomas, Baumann Robert, The turbulent decay of trailing vortex pairs in stably stratified environments, 10.1016/s1270-9638(00)01090-7
  23. Switzer G., Proctor F., Wake vortex prediction models for decay and transport within stratified environments, 10.2514/6.2002-945
  24. Proctor Fred, Ahmad Nash'at, Switzer George, Limon Duparcmeur Fanny, Three-Phased Wake Vortex Decay, 10.2514/6.2010-7991
  25. Holzäpfel Frank, Misaka Takashi, Hennemann Ingo, Wake-Vortex Topology, Circulation, and Turbulent Exchange Processes, 10.2514/6.2010-7992
  26. Robins R., Delisi D., Numerical Simulations of Three-Dimensional Trailing Vortex Evolution, 10.2514/2.7487
  27. Han Jongil, Lin Yuh-Lang, Schowalter David G., Arya S. Pal, Proctor Fred H., Within Homogeneous Turbulence: Crow Instability Large Eddy Simulation of Aircraft Wake Vortices, 10.2514/2.956
  28. LEWEKE T., WILLIAMSON C. H. K., Cooperative elliptic instability of a vortex pair, 10.1017/s0022112097008331
  29. Leweke Thomas, Williamson Charles H. K., Experiments on long-wavelength instability and reconnection of a vortex pair, 10.1063/1.3531720
  30. Riley James J., Lelong Marie-Pascale, Fluid Motions in the Presence of Strong Stable Stratification, 10.1146/annurev.fluid.32.1.613
  31. Riley James J., deBruynKops Stephen M., Dynamics of turbulence strongly influenced by buoyancy, 10.1063/1.1578077
  32. LINDBORG ERIK, The energy cascade in a strongly stratified fluid, 10.1017/s0022112005008128
  33. BRETHOUWER G., BILLANT P., LINDBORG E., CHOMAZ J.-M., Scaling analysis and simulation of strongly stratified turbulent flows, 10.1017/s0022112007006854
  34. DIAMESSIS PETER J., SPEDDING GEOFFREY R., DOMARADZKI J. ANDRZEJ, Similarity scaling and vorticity structure in high-Reynolds-number stably stratified turbulent wakes, 10.1017/s0022112010005549
  35. Waite Michael L., Stratified turbulence at the buoyancy scale, 10.1063/1.3599699
  36. BORUE VADIM, ORSZAG STEVEN A., Local energy flux and subgrid-scale statistics in three-dimensional turbulence, 10.1017/s0022112097008306
  37. Cocle R., Bricteux L., Winckelmans G., Scale dependence and asymptotic very high Reynolds number spectral behavior of multiscale subgrid models, 10.1063/1.3194302
  38. Herring Jackson R., Métais Olivier, Numerical experiments in forced stably stratified turbulence, 10.1017/s0022112089001114
  39. WAITE MICHAEL L., BARTELLO PETER, Stratified turbulence dominated by vortical motion, 10.1017/s0022112004000977
  40. WAITE MICHAEL L., BARTELLO PETER, Stratified turbulence generated by internal gravity waves, 10.1017/s0022112005007111
  41. Cocle R., Dufresne L., Winckelmans G., Investigation of Multiscale Subgrid Models for LES of Instabilities and Turbulence in Wake Vortex Systems, Lecture Notes in Computational Science and Engineering ISBN:9783540342335 p.141-159, 10.1007/978-3-540-34234-2_11
  42. Bricteux L., Duponcheel M., Winckelmans G., A multiscale subgrid model for both free vortex flows and wall-bounded flows, 10.1063/1.3241991
  44. Jeanmart H., Winckelmans G., Investigation of eddy-viscosity models modified using discrete filters: A simplified “regularized variational multiscale model” and an “enhanced field model”, 10.1063/1.2728935
  45. Gerz Thomas, Holz-aring Frank, pfel, Wing-Tip Vortices, Turbulence, and the Distribution of Emissions, 10.2514/2.595
  46. Williamson J.H, Low-storage Runge-Kutta schemes, 10.1016/0021-9991(80)90033-9
  47. Canuto Claudio, Hussaini M. Yousuff, Quarteroni Alfio, Zang Thomas A., Spectral Methods in Fluid Dynamics, ISBN:9783540522058, 10.1007/978-3-642-84108-8
  48. Pope Stephen B., Turbulent Flows, ISBN:9780511840531, 10.1017/cbo9780511840531
  49. Jeong Jinhee, Hussain Fazle, On the identification of a vortex, 10.1017/s0022112095000462
  50. Widnall Sheila E., Bliss Donald B., Tsai Chon-Yin, The instability of short waves on a vortex ring, 10.1017/s0022112074000048
  51. Moet H., Laporte F., Chevalier G., Poinsot T., Wave propagation in vortices and vortex bursting, 10.1063/1.1896937
  52. Crow S. C., TR Communication 009 (1970)
  53. Moore D. W., Aeronautical Quarterly, 23, 307 (1972)
  54. Sarpkaya Turgut, New Model for Vortex Decay in the Atmosphere, 10.2514/2.2561
  55. De VisscherI.WinckelmansG.LonfilsT.BricteuxL.DuponcheelM.BourgeoisN. “The WAKE4D Simulation Platform for Predicting Aircraft Wake Vortex Transport and Decay: Description and Examples of Application,” AIAA Paper 2010-7994, Aug. 2010.
  56. Holz-aring Frank, pfel, Probabilistic Two-Phase Wake Vortex Decay and Transport Model, 10.2514/2.3096