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THMT THMT THMT THMT THMT THMT THMT THMT ’’’’’’’’1212121212121212
FINAL PROGRAMMEFINAL PROGRAMME
7th International Symposium on
University of Palermo, ITALYUniversity of Palermo, ITALYSeptember 24September 24 --27, 201227, 2012
Sponsored by
I HMTC
UniversUnivers ityity of Palermo, of Palermo, ItalyItalyDelft University of Technology, Delft University of Technology, NlNl
Nagoya Institute of Technology, Nagoya Institute of Technology, JapanJapanSapienzaSapienza University of RomeUniversity of Rome , Italy, Italy
ElectricitElectricit éé de France de France –– R&DR&DANSYS ITALIA, ANSYS ITALIA, ItalyItalyAVLAVL --List GmbH, List GmbH, AustriaAustriaAssociazione Termotecnica Associazione Termotecnica Italiana Italiana -- Sezione Lazio, Sezione Lazio, ItalyItaly
http://www.thmthttp://www.thmt--12.org12.org
The triennial symposia on Turbulence, Heat and Mass Transfer provide a forum for exchange of ideas, methods and results in a broad area of heat and mass transfer governed by or associated with turbulence. It provides opportunities for scientists and engineers from industry and academia to present recent advances, to discuss current problems and to anticipate future needs and prospects.
This Seventh Symposium in the series follows the concept, format and focus established at previous conferences held in Lisbon, Portugal (1994), Delft, The Netherlands (1997), Nagoya, Japan (2000), Antalya, Turkey (2003), Dubrovnik, Croatia (2006) and Rome, Italy (2009). Its origin dates back, however, to the Joint ICHMT/IUTAM Symposium on Structure of Turbulence, Heat and Mass Transfer, held in Dubrovnik in 1980.
The broad spectrum of topics covered in this Symposium, with new challenges and trends introduced by keynote speakers, substantiates again that turbulence continues to play a key role in convective heat and mass transfer, and that many still open problems and issues await further research and closer international cooperation and communication.
Lisbon, 1994
Dubrovnik, 1980Dubrovnik, 1980
Delft, 1997 Nagoya, 2000
Rome, 2009Antalya, 2003 Dubrovnik, 2006
ORGANIZING COMMITTEEORGANIZING COMMITTEE
INVITED KEYNOTE SPEAKERSINVITED KEYNOTE SPEAKERS
H.I. Andersson, NorwayB. Basara, AustriaS. Benhamadouche, FranceD. Bergstrom, CanadaB.J. Boersma, NlC. M. Casciola, Italy H. Choi, KoreaM. Ciofalo, Italy D. Čokljat, UK T. J. Craft, UK L. Davidson, SwedenC. Dopazo, SpainS. Drobniak, Poland
S.E. Elghobashi, USAJ. Fröhlich, Germany S. Frolov, Russia S. Fu, ChinaM. Gorokhovski, FranceM. Hadžiabdić, Bosnia Herz. G. Hetsroni, Israel H. Iacovides, UK J. Janicka, Germany N. Kasagi, Japan T. Kajishima, Japan S. Kenjereš, NlJ. Klewicki, Australia/USA
S. Komori, JapanP. Le Quéré, France R. Manceau, France D. Markovich, Russia F. Menter, Germany O. Metais, France S. Obi, JapanJ.C.Pereira, Portugal M. Reeks, UK G. Rizzo, Italy D.J.E.M. Roekaerts, Nl G.P. Romano, Italy E. Serre, France
A.P. Silva Freire, BrazilM. Sommerfeld, GermanyA.A. van Steenhoven, NlK. Suga, JapanH.J. Sung, KoreaJ. Szmyd, PolandA. Tomboulides, GreeceP. Tucker, UKR. Verzicco, ItalyS. Wallin, SwedenH. Yoshida, JapanZ. Zhang, China
SCIENTIFIC ADVISORY COMMITTEESCIENTIFIC ADVISORY COMMITTEE
K. K. HanjaliHanjalićć, , Chairman Delft University of Technology, The Netherlands
A. Badagliacca, A. Badagliacca, ATI Lazio, ItalyG.P. G.P. CelataCelata, , ENEA, ItalyP. Durbin, P. Durbin, Iowa State University, USAT.B. T.B. GatskiGatski, , Institute Pprime, Poitiers, France S. S. S. S. GirimajiGirimaji, , Texas A&M University, USAH. Hattori, H. Hattori, Nagoya Inst. of Technology, JapanB.E. Launder, B.E. Launder, University of Manchester, UKD. Laurence, D. Laurence, Electricité de FranceI. I. MarusicMarusic, , University of Melbourne, AustraliaF. F. MicariMicari, , University of Palermo, ItalyT. T. MiyauchiMiyauchi, , Tokyo Inst. of Technology, JapanA. Pollard, A. Pollard, Queen’s University, Canada
F. F. RispoliRispoli, , Co-ChairmanSapienza University of Rome, Italy
Y. Nagano, Y. Nagano, Co-Chairman Nagoya Institute of Technology, Japan
S. S. JakirliJakirlićć, , Symposium SecretaryDarmstadt University of Technology, Germany
D. D. BorelloBorello, , Organizing Secretary Sapienza University of Rome, Italy
C. C. DispenzaDispenza, , University of Palermo, Italy
LOCAL ORGANIZING COMMITTEE LOCAL ORGANIZING COMMITTEE -- University of PalermoUniversity of Palermo
A. Brucato, F. Castiglia, G. MicaleA. Brucato, F. Castiglia, G. Micale, , M. MoraleM. Morale, , G. G. ScaccianoceScaccianoce, , G. G. VellaVella
•• Mike Reeks, Mike Reeks, Newcastle University, UKTransport, mixing and agglomeration of particles in turbulent flTransport, mixing and agglomeration of particles in turbulent flowsows
•• DaneshDanesh TaftiTafti, , Virginia Tech, USALargeLarge--eddy simulations of complex walleddy simulations of complex wall--bounded high Reynolds number flowsbounded high Reynolds number flows
•• Luc Luc VervischVervisch, , INSA de Rouen, FranceChallenges and progress in turbulent combustion modelingChallenges and progress in turbulent combustion modeling
•• HarmenHarmen JonkerJonker, , Delft University of Technology, The NetherlandsInterfacial layers in clear and cloudy atmospheric boundary layeInterfacial layers in clear and cloudy atmospheric boundary layersrs
•• Tadashi Tadashi NarabayashiNarabayashi, , Hokkaido University, JapanLessons learned from the Fukushima Daiichi Nuclear Power Plant aLessons learned from the Fukushima Daiichi Nuclear Power Plant accidentsccidents
(ground floor)
Lift Toilette ATM
Entrance 1
Entrance 2
To other floors
To other floors
Room A
(Sala del Consiglio)
(2nd floor)
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Room B
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Room C
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To other floors
To other floorsTo other floors
M Aula Magna
To other floors
(1st floor)
Entrance 2Entrance 1
Metro Station (Palazzo Reale – Orleans)
650 m
THMT’12 Building Engineering Faculty
Building 7
SUNDAY September 23: 16.00 – 19.00 Registration (Hotel et Des Palmes, Via Roma, 398) 18.00 – 20.00 Reception (Hotel et Des Palmes, Via Roma, 398)
MONDAY September 24 TUESDAY September 25 WEDNESDAY September 26 THURSDAY September 27
08.00 – 09.00 Registration 09.00 – 09.15 Opening (Aula M)
08.30 – 09.15 (Aula M) Keynote: Recent developments in turbulent combustion: automated progress variable definition. Ignition combustion regimes after rapid compression Luc Vervisch
08.30 – 09.15 (Aula M) Keynote: Transport, mixing and agglomeration of particles in turbulent flows Michael W. Reeks
08.30 – 09.15 (Aula M) Keynote: LES in complex high Reynolds number flows Danesh Tafti
09.15 – 10.00 (Aula M) Keynote: Interfacial layers in clear and cloudy atmospheric boundary layers Harmen Jonker
09.20 – 10.40 10. Turbulence Structures (2) A 11. Particle-laden Flows (1) B 12. Turbulence Closures (1) C
09.20 – 10.40 22. Combustion and Reactive Flows (3) A 23. Stability, Transition, Unsteadiness (1) B 24. Combined RANS LES (1) C
09.20 – 10.40 28. Impingement, Sep., Swirl, Rot. (1) A 29. MHD B 30. Sprays, Bubbles, Droplets (1) C
10.00 – 10.20 Coffee Break 10.40 – 11.00 Coffee Break 10.40 – 11.00 Coffee Break 10.40 – 11.00 Coffee Break
10.20 – 12.20 1. Turbulence Structures (1) A 2. Experiments (1) B 3. Fundamentals (1) C
11.00 – 13.00 13. Drag & Heat Transfer Control A 14. Particle-laden Flows (2) B 15. Turbulence Closures (2) C
11.00 – 13.00 25. Combustion and Reactive Flows (4) A 26. Stability, Transition, Unsteadiness (2) B 27. Combined RANS & LES (2) C
11.00 – 13.00 31. Impingement, Sep., Swirl, Rot. (2) A 32. THMT Applications B 33. Sprays, Bubbles, Droplets (2) C
12.20 – 14.00 Lunch Break 13.00 – 14.00 Lunch Break 13.00 – 14.00 Lunch Break 13.00 – 14.30 Lunch Break
14.00 – 16.00 4. Turbulence and Buoyancy (1) A 5. Experiments (2) B 6. Fundamentals (2) C
14.00 – 16.00 16. Combustion Reactive Flows (1) A 17. Particle-laden Flows (3) B 18. DNS and LES Studies (1) C
14.00 – 14.45 (Aula M) Keynote: Lessons learned from the Fukushima Daiichi Nuclear Power Plant accidents Tadashi Narabayashi 15.00-18.00 Poster Session (1)
14.30-17.30 Poster Session (2)
16.00 – 16.20 Refreshment 16.00 – 16.20 Refreshment 16.00 – 16.20 Refreshment 16.00 – 16.20 Refreshment
Poster Session (2), cont.
16.20 – 18.40 7. Turbulence and Buoyancy (2) A
8. Mixing B 9. Modelling & Comp. Methods C
16.20 – 18.20 19. Combustion Reactive Flows (2) A 20. Environmental & Geophysical Flows B 21. DNS and LES Studies (2) C
Poster Session (1), cont.
17.30 CONFERENCE CLOSURE
19.30 CONFERENCE DINNER
NOTE: A, B, C and M indicate the rooms / theatres where sessions will be held. The time allocated for each oral presentation is 15+5=20 minutes.
TTuurrbbuulleennccee,, HHeeaatt aanndd MMaassss TTrraannssffeerr 77 –– PPRROOGGRRAAMMMMEE OOVVEERRVVIIEEWW
MMOONNDDAAYY,, SSEEPPTTEEMMBBEERR 2244,, 22001122 -- mmoorrnniinngg
08.00 – 09.00 Registration 09.00 – 09.15 Opening 09.15 – 10.00 Keynote Lecture: Interfacial layers in clear and cloudy atmospheric boundary layers, H. Jonker, M. van Reeuwijk, P. Sullivan, N. Patton Chair: B. E. Launder 10.00 – 10.20 Coffee Break Session 1
Turbulence Structures, Heat Mass Transfer (1) Session Chair: T. Miyauchi
Session 2 Experiments and Experimental Techniques (1)
Session Chair: G.-P. Romano
Session 3 Fundamentals (1)
Session Chair: G. Vella 10.20 – 10.40 1.1 The structure of a spatially evolving three-
dimensional boundary layer subjected to spanwise pressure gradient Y. Bentaleb and M.A. Leschziner
2.1 A novel contactless flow rate measurement device for poorly conducting fluids using Lorentz force velocimetry C. Resagk, A. Wegfrass, C. Diethold, M. Werner, F. Hilbrunner, B. Halbedel, A. Thes
3.1 Heat transfer in dry granular flows. Another turbulence P. Rognon, I. Einav and B. Metzger
10.40 – 11.00 1.2 Turbulence structure in a rapidly accelerating channel flow M. Seddighi and S. He
2.2 Multiple overheat with ×-wire probe as a means to access cross-correlations between heat and kinematic quantities in turbulent flows K. Sodjavi and J. Carlier
3.2 Singularity generated turbulence and its influence on heat and mass transfer N. I. Kolev
11.00 – 11.20 1.3 Structures of density fluctuations at a low-Mach-number turbulent boundary layer by DNS T. Ohta and H. Kajima
2.3 Methods of measurement of the temperature field in pulsatile fluid P. Dančová, T. Vít, Z. Trávníček, V. Lédl and P. Psota
3.3 Destruction coefficients for mean dissipation rates in grid turbulence S. K. Lee, L. Djenidi and R. A. Antonia
11.20 – 11.40 1.4 Turbulent puffs in a horizontal square duct under stable temperature stratification T. Otsuki, G. Kawahara, M. Uhlmann and A. Pinelli
2.4 Synchronization between PIV and electro-diffusion techniques for the characterization of wavy Taylor vortex flows with axial flows E. Berrich, F. Aloui and J. Legrand
3.4 Axial velocity spectra scaling in a round, free jet H. Sadeghi and A. Pollard
11.40 – 12.00 1.5 Analysis of cyclic variability in motored IC-engines by means of detailed comparison of highly-resolved experimental and numerical data M. Baumann, F. di Mare, E. Baum, B. Peterson, B. Böhm, A. Dreizler, J. Janicka
2.5 Simultaneous measurement of fluctuating velocity and pressure using stereo-PIV and static-pressure probe in a turbulent wing-tip vortex T. Kawata and S. Obi
3.5 Entropy generation in a flow transitioning downstream of a rib S. Becker, D. M. McEligot, E. J. Walsh and E.Laurien
12.00 – 12.20 1.6 Asymmetric structures in a round jet with low density A.Muramatsu and Y. Kaneda
2.6 Simultaneous measurements of velocity and temperature fields using PIV and infrared thermograph over a backward facing step S. Yamada, H. Nakamura and S. Takaki
3.6 Modelling flow patterns and heat transfer in a gas-droplets turbulent flow downstream of a pipe sudden expansion M.A. Pakhomov and V.I. Terekhov
12.20 – 14.00 Lunch Break
MMOONNDDAAYY,, SSEEPPTTEEMMBBEERR 2244,, 22001122 -- aafftteerrnnoooonn 11
Session 4
Turbulence and Buoyancy (1) Session Chair: M. van Reeuwijk
Session 5 Experiments and Experimental Techniques (2)
Session Chair: S. Obi
Session 6 Fundamentals (2)
Session Chair: J. Klewicki
14.00 – 14.20 4.1 Measurements of Reynolds numbers near the transition to the ultimate state of turbulent Rayleigh-Bénard convection X. He, D. Funfschilling, H. Nobach, E. Bodenschatz, G. Ahlers
5.1 A PIV investigation of stratified gas-liquid flow in a horizontal pipe A.A. Ayati, J. Kolaas, A. Jensen and G. Johnson
6.1 On the applicability of the boundary layer independence principle to free and bounded turbulent flows in absence of pressure gradient I. Wygnanski, P. Tewes, N. Zalewski and L. Taubert
14.20 – 14.40 4.2 Change in flow regime in a natural convection flow in an open-ended vertical channel C. Daverat, H. Pabiou, H. Bouia, S. Xin, C. Menezo
5.2 Study of the turbulent wake behind a cylinder for different Richardson numbers M. Boirlaud, D. Couton and F. Plourde
6.2 Experimental investigation of the log-law for an adverse pressure gradient turbulent boundary layer flow at Re up to 10000 T. Knopp, D. Schanz, A. Schroder, M. Dumitra and C. Kahler
14.40 – 15.00 4.3 Stable stratification in wall-bounded turbulent flows F. Zonta and A. Soldati
5.3 Application of chemiluminescence imaging of OH-radical to flameless combustion of hydrogen containing low-calorific gases A. Gambale, D. Lupant and P. Lybaert
6.3 The phenomenon of hysteresis in turbulent boundary layers with strong adverse pressure gradient I. Vigdorovich
15.00 – 15.20 4.4 Scaling of the thermally coupled natural convection boundary layers on a conducting vertical plate V. S. Djanali, S. W. Armfield, M. P. Kirkpatrick and S. E. Norris
5.4 Experimental study of air distribution inside a thermal wall jet produced by a displacement diffuser I. Fatemi, B.-C. Wang, S. N. Oskouie, M. Koupriyanov and B. Tully
6.4 On the establishment of a logarithmic mean temperature profile in fully developed turbulent pipe flow with constant surface heat flux S. Saha, J.C. Klewicki, A.S.H. Ooi and H.M Blackburn
15.20 – 15.40 4.5 DNS of buoyancy driven flow inside a horizontal coaxial cylinder I. Zaidi, Y. Addad, D. Laurence
5.5 Experimental investigation of turbulent flow and scalar transport in a inclined jet in crossflow F. Coletti, C. J. Elkins and J. K. Eaton
6.5 Effects of pressure gradient on higher order statistics in turbulent boundary layers Z. Harun, I. Marusic, J. P. Monty and R. Mathis
15.40 – 16.00 4.6 LES and URANS strategies for the computation of turbulent natural convection flow inside horizontal cylindrical penetration enclosure D. Ammour, T.J. Craft and H. Iacovides
5.6 Temperature distribution analysis in spacer filled channels for membrane distillation A. Tamburini, A. Parlapiano, A. Cipollina, M. Ciofalo, G. Micale
6.6 A comprehensive analysis of turbulent boundary layer at air blowing through a microperforated surface V.I. Kornilov, A.V. Boiko, D.M. Markovich, A.V. Bilsky, O.A. Gobyzov, V.M. Kovenya, A.S. Lebedev and A.V. Bazovkin
16.00 – 16.20 Refreshment Break
MMOONNDDAAYY,, SSEEPPTTEEMMBBEERR 2244,, 22001122 -- aafftteerrnnoooonn 22
Session 7
Turbulence and Buoyancy (2) Session Chair: K. Suga
Session 8 Mixing
Session Chair: M. Ciofalo
Session 9 Modelling and Computational Methods
Session Chair: K. Abe 16.20 – 16.40 7.1 DNS of Thermally-Stratified Turbulent
Boundary Layer over 2-Dimensional Hill H. Hattori, S. Yoshikawa, T. Houra, M. Tagawa and Y. Nagano
8.1 Thermal heat flux analysis at the wall of a mixing tee R.J.A. Howard, J. Ndombo, S. Gervais, E. Serre
9.1 Optimization of the Deflated PCG algorithm applied to the massively parallel LES of heat transfer in gas turbines M. Malandain, N. Maheu and V. Moureau
16.40 – 17.00 7.2 Modelling turbulent heat transfer of a Rayleigh-Benard problem with compressible large-eddy simulation C. Zimmermann and R. Groll
8.2 Large-eddy simulation of turbulent mixing and fast chemistry at high Schmidt and Reynolds number M. Walter, N. Kornev and E. Hassel
9.2 A finite element LES methodology for anisotropic inhomogeneous meshes J. R. Bull, M. D. Piggott and C. C. Pain
17.00 – 17.20 7.3 Direct numerical simulation of the turbulent natural convection flow in an open cavity of aspect ratio 4 J. Chiva, O. Lehmkuhl, R. Borrell and A. Oliva
8.3 Application of a PDF method to variable-density jets A. Ghorbani, D. Markus and U. Maas
9.3. Analysis of DNS and RANS data in a turbulent channel flow with surface mounted ribs V.D. Narasimhamurthy, H.I. Andersson and T. Skjold
17.20 – 17.40 7.4 Turbulent 3D natural convection flows and interaction with surface radiation in air-filled cavity S. Xin, J. Chergui, P. Le Quere and R. Dai
8.4 Direct numerical simulation of turbulent mixing in the T-shaped microchannel A. Minakov, V. Rudyak, A. Dekterev, A. Gavrilov
9.4 Numerical simulation of the convective patterns in evaporating liquid with a shear flow V.P. Reutov and G.V. Rybushkina
17.40 – 18.00 7.5 Bifurcation of flows of a fluid with internal heat sources in a vertical pipe T. Senoo, K. Deguchi and M. Nagata
8.5 Thermal mixing of flow-crossing streams in a T-shaped junction: a comparative LES, RANS and Hybrid LES/RANS study G. John-Puthenveettil, L. Jia, T. Reimann, S. Jakirlić, D. C. Sternel
9.5 Large-eddy simulation of turbulent dynamic fluid-structure interaction O. Estruch, O. Lehmkuhl, R. Borrell, C.D. Perez Segarra
18.00 – 18.20 7.6 A numerical study of oscillatory thermo-solutal Marangoni convection in a floating half zone H. Minakuchi, Y. Takagi, Y. Okano, S. Gima and S. Dost
8.6 Flow observation and heat transfer performance of viscoelastic fluid flow in a serpentine channel K. Tatsumi, O. Nakajima, W. Nagasaka and K. Nakabe
9.6 Exact solutions to reaction-diffusion equation and the direction of turbulent scalar flux in a premixed turbulent flame and its leading edge V.A. Sabelnikov and A.N. Lipatnikov
18.20 – 18.40 7.7 RANS modelling of turbulent mixing for a jet in supersonic cross flow: model evaluation and uncertainty quantification C. Gorlé, M. Emory and G.Iaccarino
8.7 Investigation of exit loss of cooling towers at different wind speeds and Archimedes numbers M.M. Lohasz and G. Csaba
9.7 An Immersed Volume Method for large-eddy simulation of compressible flows D. Cecere, E. Giacomazzi, F.R. Picchia, N. Arcidiacono and F. Donato
TTUUEESSDDAAYY,, SSEEPPTTEEMMBBEERR 2255,, 22001122 -- mmoorrnniinngg 08.30 – 09.15 Keynote Lecture: Recent developments in turbulent combustion: automated progress variable definition - ignition combustion regimes after rapid compression, Luc Vervisch, Y.-S Niu, G. Lodier, and P. Doningo Chair: E. Mastorakos
Session 10 Turbulence Structures, Heat Mass Transfer (2)
Session Chair: A. Pollard
Session 11 Particle-laden Flows (1)
Session Chair: C. M. Casciola
Session 12 Turbulence Closures (1) Session Chair: R. Howard
09.20 – 09.40 10.1 Numerical analysis of the vortex breakdown phenomenon in conical-cylindrical cavities D. A. M. Martins, F. J. Souza, R. V. Salvo and A. Silveira Neto
11.1 Particle dispersion modeling based on the generalized Langevin model for the seen velocity B.Naud
12.1 Towards the application of Reynolds stress transport models to 3D turbomachinery flows C. Morsbach, M. Franke and F. di Mare
09.40 – 10.00 10.2 Spatio-temporal characteristics of heat transfer for a backward-facing step flow H. Nakamura, S. Takaki and S. Yamada
11.2 Singularity of inertial particles concentration in the viscous sublayer of wall-bounded turbulent flows D.Ph. Sikovsky
12.2 Simulation of a turbulent rod bundle flow at a low molecular Prandtl number T. Baumann, S. Taufall, H. Oertel jr., R. Stieglitz and Th. Wetzel
10.00 – 10.20 10.3 Direct numerical simulation of turbulent wake behind two intersecting plates F. Hoseini Dadmarzi, V.D. Narasimhamurthy, H.I. Andersson and B. Pettersen
11.3 Experimental verification for the prediction of particle path and particle Reynolds number using local Stokes number Y. Hagiwara, H. Fujii and A. Kitagawa
12.3 Reformulation of a two-equation model for the turbulent heat transfer S. Rochhausen.
10.20 – 10.40 10.4 Study of vortex breakdown in swirling premixed flames by high-repetition stereoscopic PIV S.V. Alekseenko, L.M. Chikishev, V.M. Dulin and D.M. Markovich
11.4 Direct numerical simulation of heat transfer in fluid-particle two-phase flow by coupled immersed-boundary and discrete-element methods T. Kajishima, S. Takeuchi and T. Tsutsumi
12.4 Numerical simulation of the unsteady flow past a heated square cylinder S. Didorally, H. Bezard and E. Laroche
10.40 – 11.00 Coffee Break Session 13
Drag and Heat Transfer Control Session Chair: S. Krajnovic
Session 14 Particle-laden Flows (2)
Session Chair: T. Kajishima
Session 15 Turbulence Closures (2) Session Chair: B.Basara
11.00 – 11.20 13.1 The nature of optimal and suboptimal controls in dissimilar heat and momentum turbulent transport Y. Hasegawa, A. Yamamoto and N. Kasagi
14.1 An algebraic-closure-based moment method for unsteady Eulerian modeling of non-isothermal particle-laden turbulent flows in very dilute regime and high Stokes number E. Masi and O. Simonin
15.1 An explicit algebraic turbulence model for buoyant flows D. Vanpouille, B. Aupoix and E. Laroche
11.20 – 11.40 13.2 Turbulence at low Reynolds number: heat transfer enhancement in sheared suspensions O. Rahli, X. Yin, P. Rognon and B. Metzger
14.2 Direct numerical simulation of interacting inertial particles in homogeneous isotropic turbulence R. Onishi, J. C. Vassilicos and K. Takahashi
15.2 Algebraic Reynolds stress and scalar flux modeling for compressible mixing layer M. Karimi, S. S. Girimaji and C. A. Gomez
11.40 – 12.00 13.3 Analysis of polymer drag reduction mechanisms from energy budgets L. Thais, T.B.Gatski and G. Mompean
14.3 Exact regularized point particle method for particle-laden flows in the two-way coupling regime P. Gualtieri, F. Picano, G. Sardina and C.M. Casciola
15.3 The time scale bounded k- turbulence model and its assessment for automotive applications V. Pržulj, N. Tiney, E. Shapiro, R. Penning, M. Shala
12.00 – 12.20 13.4 Promotion and control of turbulent thermal
mixing in T-junction with delta wings M. Hirota, T. Miyakoshi, H. Asano, E. Mohri, S. Hori, N. Maruyama and A. Nishimura
14.4 Inertial particles in homogeneous shear turbulence: experiments and direct numerical simulation C. Nicolai, B. Jacob, P. Gualtieri, R. Piva
15.4 Geometry effects in rough wall turbulent mass transfer K. S. Lari, M. van Reeuwijk and C. Maksimovic
12.20 – 12.40 13.5 Turbulent mass transfer in a drag-reducing channel flow with dosed polymer solution by simultaneous PIV and PLIF measurements M. Motozawa, T. Otsuki, T. Kurosawa, K. Iwamoto, H. Ando, T. Senda and Y. Kawaguchi
14.5 Statistics of particle accumulation in spatially developing turbulent boundary layers G. Sardina, P. Schlatter, L. Brandt, F. Picano, C.M. Casciola and D.S. Henningson
15.5 Development of adaptive wall functions for an elliptic blending model F.Billard, K. Osman, D. Laurence
12.40 – 13.00 13.6 Experimental study on heat transfer augmentation in viscoelastic turbulent channel flow by two-dimensional orifice S. Kawada, D. Tsurumi, T. Tsukahara, and Y.Kawaguchi
14.6 Direct numerical simulation of particle transport by hairpin vortices in a laminar boundary layer M. Prevel, I. Vinkovic, D. Doppler and M. Buffat
15.6 Second moment modelling of turbulence in porous media Y. Kuwata and K. Suga
13.00 – 14.00 Lunch Break
TTUUEESSDDAAYY,, SSEEPPTTEEMMBBEERR 2255,, 22001122 -- aafftteerrnnoooonn
Session 16
Combustion and Reactive Flows (1) Session Chair: M. Tanahashi
Session 17 Particle-laden Flows (3)
Session Chair: P. Gualtieri
Session 18 DNS and LES Studies (1) Session Chair: L. Davidson
14.00 – 14.20 16.1 Scalar superlayer contributions to the mixture fraction pdf in a jet flow M. Gampert, P. Schaefer and N. Peters
17.1 Temperature and velocity statistics in a particle-laden turbulent channel flow B. Arcen, A. Taniere and M. Khalij
18.1 Structural LES modeling using a high-order spectral difference scheme for unstructured meshes G. Lodato, P. Castonguay and A. Jameson
14.20 – 14.40 16.2 Analysis of combustion modelling tools using DNS of a non-premixed turbulent wall-jet Z. Pouransari, L. Vervisch and A.V. Johansson
17.2 Influence of shape on particle behaviour in channel flow D.O. Njobuenwu and M. Fairweather
18.2 An investigation of SGS-stress anisotropy modeling in complex turbulent flow field K. Abe
14.40 – 15.00 16.3 Modeling differential diffusion in large-eddy simulation of a bluff body stabilized premixed weakly-turbulent flame S. Nambully, P. Domingo, V. Moureau, L. Vervisch
17.3 Behaviour of time-dependent bedforms in closed pipe flow H. Rice, T.N. Hunter, J. Peakall, S. Biggs and M. Fairweather
18.3 Large-eddy simulation of the incompressible swirling flow in a subchannel of a fuel rod bundle E. Severac and J. Frohlich
15.00 – 15.20 16.4 Effect of gas–phase carbon depletion by sooting on the structure of methane/air flamelets F.Bonifazi and D.Lentini
17.4 Fluid-Solid coupling in advanced gas-cooled reactor thermohydraulics J. Uribe, R. Howard and M. Rabbitt
18.4 LES of turbulent flow in a concentric annulus with rotating outer wall M. Hadžiabdić and K. Hanjalić
15.20 – 15.40 16.5 Statistical behaviour of dissipation rate of turbulent kinetic energy in turbulent premixed flames N. Chakraborty, M. Hudson and R.S. Cant
17.5 Modelling turbulent inter-phase drag in mechanically stirred solid-liquid suspensions A. Tamburini, A. Cipollina, G. Micale, A. Brucato and M. Ciofalo
18.5 Numerical simulations of turbulent heat transfer in a channel with one wavy wall O. Errico, M. Cavazzuti, D. Angeli and E. Stalio
15.40 – 16.00 16.6 Vortex-flame interaction leading to flame flashback in a premixed combustion system: A numerical study T. Voigt, P. Habisreuther, N. Zarzalis
17.6 Solid-liquid phase change with turbulent flow P. Galione, J. Rigola, J. Castro and I. Rodriguez
18.6 Unsteady RANS and large-eddy simulation of the flow and heat transfer in a wall bounded pin matrix S. Benhamadouche, I. Afgan, F. Dehoux, R. Manceau
16.00 – 16.20 Refreshment Break Session 19
Combustion and Reactive Flows (2) Session Chair: B. Naud
Session 20 Environmental and Geophysical Flows
Session Chair: T. Gatski
Session 21 DNS and LES Studies (2)
Session Chair: S. Benhamdouche 16.20 – 16.40 19.1 Large-eddy simulation of the Darmstadt TSF-
Burner P. Trisjono, K. Kleinheinz, E. Knudsen, S. Kang and H. Pitsch
20.1 Modeling of Langmuir circulation: triple decomposition of the Craik-Leibovitch model G. Martinat, C.E. Grosch and T.B. Gatski
21.1 On the use of LES in the aero-thermal analysis of internal cooling systems. M. Carnevale, S. Salvadori and F. Martelli
16.40 – 17.00 19.2 Transported PDF simulations of the Delft-jet-in-hot-coflow burner based on 3D FGM tabulated chemistry G. Sarras, M.K. Stollinger and D.J.E.M. Roekaerts
20.2 Wind tunnel experiments of a buoyancy jet in a cross wind (effects of turbulent motions on jet structures) N. Sekishita, W. Isebaba and H. Makita
21.2 LES of film cooling upstream an airfoil/endwall junction to suppress horseshoe vortex and endwall heat transfer Y. Oda, K. Takeishi and S. Kozono
17.00 – 17.20 19.3 Flame-lift off conditions in a boundary layer with hydrogen injection and combustion E.P. Volchkov, V.V. Lukashov and V.V. Terekhov
20.3 An experimental investigation od the flow and transfer processes in homogeneous urban street-canyon geometries using Particle Image Velocimetry C. N. Markides, P. Fokaides and M.K.-A. Neophytou
21.3 Analysis of the turbulent flow through a turn-around duct by contrasting different modelling approaches B. Basara
17.20 – 17.40 19.4 Local structure of swirling premixed flame in micro-scale combustor K. Kuchiki, M. Shimura, I. Yoshikawa, N. Fukushima, M. Tanahashi and T. Miyauchi
20.4 LES analysis on heat environment in densely arrayed tall buildings -Thermal boundary treatment in actual urban area- T. Nozu , T. Tamura , Y. Okuda , M. Ohashi and H. Umakawa
21.4 Large-eddy simulation of surface fire propagating through homogeneous grasslands D. Morvan
15.40 – 18.00 19.5 Dynamic flame behavior in lean premixed burner with swirling flow M. Komiyama, T. Takeishi and Y. Ogawa
20.5 Evaluation of sea-breeze cooling in Osaka Area, Japan using a Meteorological Model A. Yoshida, Y. Suzuki, J. Yashiro and R. Yasuda
21.5 Large-eddy simulation of flow control around a cube subjected to momentum injection X. Han and S. Krajnovic
18.00 – 18.20 19.6 The effects of radiative heatloss on the diffusive- thermal instability of high-temperature premixed flames T. T. Aung and S. Kadowaki
20.6 A general analytical approach for simulation of pollutant dispersion in the atmospheric boundary layer D. Buske, T. Tirabassi, M. T. Vilhena, R. S. Quadros
21.6 Large-eddy simulation of supersonic jet plumes from rectangular con-di nozzles P. C. Wang and J. J. McGuirk
WWEEDDNNEESSDDAAYY,, SSEEPPTTEEMMBBEERR 2266,, 22001122 -- mmoorrnniinngg
08.30 – 09.15 Keynote Lecture: Transport, mixing and agglomeration of particles in turbulent flows, Michael W. Reeks Chair: Y. Hagiwara
Session 22 Combustion and Reactive Flows (3)
Session Chair: N. Chakraborty
Session 23 Stability, Transition and Unsteadiness (1)
Session Chair: E. Serre
Session 24 Combined RANS and LES (1)
Session Chair: S. Wallin 09.20 – 09.40 22.1 LES/FMDF of Trapped Vortex Combustors
H. Ardeshiri and A. Afshari
23.1 Turbulence, instabilities and heat transfer in rotating channel flow simulations G. Brethouwer, L. Wei, P. Schlatter and A. V. Johansson
24.1 Feasibility study of hybrid LES/RANS model for the flow over an aerodynamic body R.S. Amano, Z. Xu
09.40 – 10.00 22.2 Numerical simulation of turbulent stratified fame propagation in a closed vessel C. Gruselle, V. Moureau and Y. D’Angelo
23..2 Instantaneous flow field above the free-end of finite-height cylinders and prisms N. Rostamy, D. Sumner, D.J. Bergstrom, J.D. Bugg
24.2 Large-eddy simulation of heat transfer in boundary layer and backstep flow using PANS L. Davidson
10.00 – 10.20 22.3 Modelling flame quenching effect on wall heat transfer in turbulent flow K. Truffin, B. Leveugle, G. Bruneaux, Y. D’Angelo and J. Reveillon
23.3 Flow around an obstacle between parallel walls W. Yu, L. Le Penven, I. Vinkovic and M. Buffat
24.3 Hybrid RANS-LES modelling with an energy backscatter function incorporated in the LES mode Shia-Hui Peng
10.20 – 10.40 22.4 LES/CMC of blow-off in a liquid fuelled swirl burner A. Tyliszczak and E. Mastorakos
23.4 Turbulent-laminar patterns in Poiseuille and Couette flows K. Fukudome and O. Iida
24.4 Refinement of a hybrid LES–URANS approach for non-equilibrium turbulent flows M. Breuer and S. Schmidt
10.40 – 11.00 Coffee Break
Session 25 Combustion and Reactive Flows (4)
Session Chair: M. Fairweather
Session 26 Stability, Transition and Unsteadiness (2)
Session Chair: D. Bergstrom
Session 27 Combined RANS and LES (2)
Session Chair: S.-H. Peng
11.00 – 11.20 25.1 Large-eddy simulation of unsteady effects of combustion processes in HCCI engine D. Goryntsev and A. Sadiki
26.1 Sensitivity of vortex shedding in 2-D turbulent flow past a blunt trailing-edge cylinder P. Meliga, G. Pujals and E. Serre
27.1 Zonal Detached Eddy Simulation (ZDES) study of a 3D curved duct R. Larauf e and S. Deck
11.20 – 11.40 25.2 Modeling of solid fuel particles combustion I. Wardach-Swiecicka and D. Kardas
26. 2 Aerothermal study of periodic pulsed jet issuing into a crossflow: application to temperature mixture near wall G. Lalizel, Q. Sultan, M. Fenot and E. Dorignac
27.2 A zonal hybrid turbulence model based on Rotta integral length scale transport equation A. Mehdizadeh and A. Sadiki
11.40 – 12.00 25.3 Numerical simulation of pulverized coal MILD combustion considering advanced heterogeneous combustion model M. Vascellari, S. Schulze, D. Safronov, P. Nikrytyuk and C. Hasse
26.3 Large eddy simulations in turbines: influence of roughness and free-stream turbulence V. Nagabhushana Rao, R. Jefferson-Loveday, P. Tucker, S. Lardeau
27.3 Investigation of the equivalence of two hybrid temporal-LES methods based on elliptic blending in separated flows C. Friess and R. Manceau
12.00 – 12.20 25. 4 Effects of Lewis number on the curvature term of the Flame Surface Density transport equation for LES M. Katragadda1 and N. Chakraborty
26.4 Heat and fluid flow past spherical particles in pulsatory flows A. Richter and P.A. Nikrityuk
27.4 Bridging between coarse and fine resolution in variable resolution turbulence computations S. Wallin, D. A. Reyes and S. S. Girimaji
12.20 – 12.40 25.5 Numerical investigation of lean-premixed turbulent flame using combustion LES and thickened flame approach A. Hosseinzadeh, A. Schwarz and J.Janicka
26.5 Unsteady-laminar to turbulent flow in a spacer-filled channel S.M. Mojab, A. Pollard, J.G. Pharoah, S.B. Beale and E.S. Hanff
27.5 Detached-eddy simulation of flow around a pitching NACA 0015 airfoil with actuation slots R.Y. Hu, L. Wang, Z.X Xiao and S. Fu
12.40 – 13.00 25.6 RANS modelling of confined, vented explosions of methane-hydrogen mixtures R.M. Woolley1 M. Fairweather, S.A.E.G. Falle and J.R. Giddings
26.6 Towards development of a transfer function between flow rate and pressure gradient for turbulent pulsating pipe flow E. Werzner, S. Ray and D. Trimis
27.6 Dissolution of a light gas stratification in a safety containment model: computational study using the scale-adaptive k-w-SST model of turbulence M. Gärtner, S. Jakirlić, M. Freitag and C. Tropea
13.00 – 14.00 Lunch Break
WWEEDDNNEESSDDAAYY,, SSEEPPTTEEMMBBEERR 2266,, 22001122 -- aafftteerrnnoooonn
14.00 – 14.45 Keynote Lecture: Lessons learned from the Fukushima Daiichi Nuclear Power Plant accidents, Tadashi Narabayashi Chair: C. Dispenza 15.00 – 18.00 Poster Session (1), Chairs: S. Jakirlić / P. Venturini
1. Theoretical investigation of the effect caused by the inhomogeneity of turbulent flow T. Ariki
15. Effect of different initial conditions on a three-dimensional wall jet H. Yano, K. Mukai, and Y. Tsuchida
29. RANS Investigation of hysteresis of vortex breakdown in the cold model of a swirl burner M. Hadžiabdić, M. Halilagić and K. Hanjalić
2. Turbulent crossbar wake with passive scalar N. Lefeuvre, L. Djenidi and R. A. Antonia
16. Experimental study of turbulent flow in a slot diffuser E. E. Essel, M. F. Tachie, M. Agelin-Chaab, A. A. Ampadu-Mintah, M. Koupriyanov and B. Tully
30. Statistical behaviour of the curvature term of the FSD transport equation in the context of RANS M. Katragadda, S.P. Malkeson and N. Chakraborty
3. Inverse energy transfer mechanism in turbulent round jets B. B. Ilyushin, M. Hrebtov
17. GPU-accelerated direct numerical simulation of Burgers equation by CUDA Fortran S. Satake and H. Yoshimori
31. RANS simulation of turbulent lobed jet M. Sehaba, M. Boulenouar and O. Imine
4. On cataloguing of incompressible flat-plate boundary layers P.S. Zanko and N.I. Mikheev
18. Conservation properties and accuracy of unstructured mesh schemes for the Navier Stokes equations L. Jofre, O. Lehmkuhl, J. Ventosa and A. Oliva
32. Effect of plume meandering in modeling dispersion downstream a wall-mounted cube using the RANS equations R. Rossi, D. A. Philips and G. Iaccarino
5. The influence of the spectrum of velocity fluctuations of the external turbulent flow on the local heat transfer fluctuations structure on the sphere L. Bogusławski
19. A wall heat transfer function for equilibrium flows – a combination of Reichardt and Kader profiles with Wang type scaling R. J. A. Howard
33. RANS analysis of turbulent flow and heat transfer in a helically-coiled tube D.-H. Yoon, K.W. Seul and J. Park
6. The influence of the dispersion model and electrochemical forces on nanoparticle deposition in a turbulent flow A. Mehel
20. RANS modelling of sonic CO2 jets J. Wareing, M. Fairweather, S.A.E.G. Falle and R.M. Woolley
34. Experimental and numerical investigation of impinging jet array heat transfer on a smooth and v-shaped ribbed surface S. Caliskan, S. Baskaya
7. Nanofluid flow in pipes with twisted tape does not show anomalous enhancement of heat transfer M. Gruschka, M. H. Buschmann
21. Spectrally-consistent regularization modeling at very high Rayleigh numbers F.X. Trias, A. Gorobets, R.W.C.P. Verstappen, A. Oliva
35. On the transient modelling of impinging jets heat transfer. A practical approach M. Bovo and L. Davidson
8. Vortex structures in three-dimensional turbulent lid-driven cavity flow M. S. Hossain, R. Chakravarty, D.J. Bergstrom, M. Samani, X.-B. Chen and D. Sumner
22. Numerical model of supercooled water freezing A. Criscione, Ž. Tuković, D. Kintea, I. V. Roisman, S. Jakirlić and C. Tropea
36. Flow and heat transfer characteristics in the reattachment zone downstream a backward facing step ‘Inlet flow structure effect’ N. Nait Bouda, S. Harmand , J. Pelle and A. Lakehal
9. Vortex structures, heat transfer and surface optimization of dimpled surfaces J. Turnow, N. Kornev and E. Hassel
23. Large-eddy simulations of flow and heat transfer around a low-Mach turbine blade N. Maheu, V. Moureau, P. Domingo
37. RANS-based numerical simulation of a rectangular turbulent jet in crossflow E. Khali and Y.F. Yao
10. Experimental analysis of turbulent structure of viscoelastic fluid downstream of two dimensional orifice D. Tsurumi, S. Kawada, T. Kawase, T. Tsukahara, and Y. Kawaguchi
24. Numerical investigation of passive flow control around a D-shaped bluff body X. Han and S. Krajnovic
38. Experimental research of aerodynamics of the system of the revolved cylinders in a turbulent stream К. Kussaiynov, S.E. Sakipova, А. Kussaiynovа, А. Dyusembaeva, N. Tansykbaeva
11. Flow structure of a lifted premixed flame investigated by PIV S. V. Abdurakipov, V. M. Dulin, D. M. Markovich and T.A. Vinokurova
25. Direct numerical simulation of turbulent heat transfer in curved pipes M. Di Liberto, M. Ciofalo
39. Turbulent flow and heat transfer measurements in helically grooved tube L. Romvári, Z. Hernádi, S. Csecsődy, G. Varga and G. Kristóf
12. Numerical solution of mass flow rate controlled, fully developed, unsteady, turbulent pipe flows S. Ray, E. Werzner and D. Trimis
26 Direct numerical simulation of physiological pulsatile flow through a stenotic channel A. Khair, A. Hossain, B.-C. Wang, D. Kuhn and M. Molla
40. Analysis of natural convection flow and heat transfer in a non-uniform heated vertical open channel E.Sanvicente, S.Giroux-Julien, H.Bouia and C.Ménézo
13. Low-frequency unsteadiness in the vortex formation region of a circular cylinder I. Rodrıguez, O. Lehmkuh, R. Borrell and A. Oliva
27. Flow and heat transfer in a wall-bounded pin matrix L. Paniagua, C. Oliet, O. Lehmkuhl and C. D. Perez-Segarra
41. Numerical investigation of turbulent natural convection in symmetrically and asymmetrically heated vertical channels V. Terekhov and Ekaid
14. Transitional CFD Investigation of stepped airfoil S. Sammak , R. Mojgani and M. Boroomand
28. Effect of LES closures on the entrainment of a passive scalar in a turbulent planar jet D. C. Lopes, C. B. Da Silva, R. J. N. dos Reis, V. Raman
42. Reconstruction of an entropy source in a swirling flow with an adjoint based data assimilation method M. Lemke and J. Sesterhenn
19.30-23.30 CONFERENCE DINNER
TTHHUURRSSDDAAYY,, SSEEPPTTEEMMBBEERR 2277,, 22001122 -- mmoorrnniinngg 08.30 – 09.15 Keynote Lecture: LES in complex high Reynolds number flows, Danesh Tafti and S. Patil Chair: M. Leschziner Session 28
Impingement, Separation, Swirl and Rotation (1) Session Chair: A. P. Silva-Freire
Session 29 Electrically Conductive Fluids and MHD
Session Chair: S. Kenjereš
Session 30 Sprays, Bubbles, and Droplets (1)
Session Chair: D. Markovich 09.20 –0 9.40 28.1 Back to the future: Flettner-Thom rotors for
maritime propulsion? T.J. Craft, H. Iacovides, N. Johnson and B.E. Launder
29.1 Effect of an axial magnetic field on the first transition to unsteady thermal convective regime in a counter-rotating Von Karman flow L. Bordja, E. Crespo del Arco, E. Serre, D. Yassine
30.1 Simulations of spray reacting flows in a single element LDI injector with and without a scalar PDF method T.H. Shih and N.S. Liu
09.40 – 10.00 28.2 Effects of high free-stream turbulence on a separated flow field over a two-dimensional hill T. Houra, K. Takano, M. Tagawa and Y. Nagano
29.2 Localised turbulence states in differentially heated cubical enclosure of paramagnetic fluid in strong magnetic gradients S. Kenjereš, L. Pyrda, E. Fornalik-Wajs, J.S. Szmyd
30.2 Analysis of spray formation in a confined spray process for powder production U. Fritsching and A. Lampa
10.00 – 10.20 28.3 Experimental and numerical investigation of separation controlled flow over hump T. Hyhlik, M. Matějka, V. Skala and P. Doerffer
29.3 Study on distribution of dynamic and thermal characteristics in a non-equilibrium plasma jet V. Valinčius, V. Grigaitienė and A. Tamošiūnas
30.3 Joint gas-phase velocity-scalar PDF modeling of turbulent evaporating spray flows Y. Hu, H.W. Ge1 and E. Gutheil
10.20 – 10.40 28.4 Experimental and numerical investigation on a fully developed turbulent pipe flow over a semicircle orifice S. Okuda, C.-H. Lepeut, M. Rasti, T. Kawata and S. Obi
29.4 Large-eddy simulation of turbulent transfer in MHD duct flows with strong sidewall jets H. Kobayashi and Y. Okun
30.4 Numerical investigation of two-phase turbulent flow in a vertical tube with evaporation G. Mebarki and S. Rahal
10.40 – 11.00 Coffee Break
Session 31 Impingement, Separation, Swirl and Rotation (2)
Session Chair: M. Hadžiabdić
Session 32 THMT Applications
Session Chair: F. Rispoli
Session 33 Sprays, Bubbles, and Droplets (2)
Session Chair: T.-H. Shih 11.00 – 11.20 31.1 Turbulent flow over three square cylinders:
comparison between LES and DES N. Uddin and M. Zaidi
32.1 Experimental investigation on the flow field and performances of a Savonius-Darrieus wind turbine G. Savino, D. Pietrogiacomi and G.P. Romano
33.1 DNS of evaporating turbulent two-phase flows with resolved liquid-gas interface Duret, T. Menard, J. Reveillon and F.X. Demoulin .
11.20 – 11.40 31.2 Roughness effects on separated and reattached open channel turbulent flow A. A. Ampadu-Mintah, M. F. Tachie and M. Agelin-Chaab
32.2 Large-eddy simulation of a 3-bladed horizontal axis tidal stream turbine: comparisons to RANS and experiments I. Afgan, J. McNaughton, D. Apsley, S. Rolfo, T. Stallard and P. Stansby
33.2 Turbulent characteristics of cavitating flows about single bodies and a cascade A. Kravtsova, D. Markovich, K. Pervunin and M. Timoshevskiy
11.40 – 12.00 31.3 On the dynamic behaviour of turbulent impinging jets J. B. R. Loureiro and A. P. Silva Freire
32.3 Macroscopic models for the simulation of turbulent heat and mass transfer in catalyst tubular reactors F.Mathey
33.3 An experimental study of enhancement of transition of bubble motion from 2D to 3D by gas-liquid interaction in an oscillating-grid decaying turbulence Y. Nagami and T. Saito
12.00 – 12.20 31.4 Heat transfer in inclined and direct impinging synthetic jets U. Bhapkar, B. Puranik, A. Srivastava and A. Agrawal
32.4 Redistribution of solid inclusions in the turbulent flow of metallurgical induction furnaces M. Ščepanskis, A. Jakovičs , B. Nacke and E. Baake
33.4 Three-dimensional measurements of microbubbles in a turbulent pipe flow by digital-holographic PTV S. Satake, T. Kikuchi, H. Iida, T. Kunugi
12.20 – 12.40 31.5 On the large-eddy simulation modelling of wind turbine dedicated airfoils at high Reynolds numbers J. Calafell, O. Lehmkuhl, I. Rodrıguez and A. Oliva
32.5 Heat transfer coefficient distributions on sphere surface in pebble bed core using different turbulence models M.-T. Kao, Y.-H. Tung, Y.-M. Ferng, C.-C. Chieng, M. Chyu
33.5 Characterisation of downwards co-current gas-liquid annular flows I. Zadrazil, O. K. Matar, G.F. Hewitt and C. N. Markides
12.40 – 13.00 32.6 Effects of flow regime and geometrical parameters on the heat transfer in blow-by gases cyclone separators B. Sagot and F. Buron
13.00 – 14.30 Lunch Break
TTHHUURRSSDDAAYY,, SSEEPPTTEEMMBBEERR 2277,, 22001122 –– aafftteerrnnoooonn 14.30 – 17.30 Poster Session (2), Chairs: D. Borello / H. Hattori
43. Experimental measurement and RANS modelling of multiphase CO2 jet releases R.M. Woolley, C. Proust, M. Fairweather, S.A.E.G. Falle, J. Hebrard, D. Jamois and C.J. Wareing
57. On the mean momentum balance in gas-solid channel flows L. Zhao and H. Andersson
71. Study of natural circulation in a VHTR after a LOFA using different turbulence models Y.-H. Tung, Y.-M. Ferng, R.W. Johnson, C.-C. Chieng
44. Second-order chemical reaction micro- and macro- mixing in a plane turbulent channel I. Sancho, A. Fabregat , J. Pallares and A. Vernet
58. Expansion of high-pressure superheated liquids: multiphase flows and shock effects S. E. Yakush
72. Effect of turbulence models on the flow field of cross-flow fan M. Lee, S. Kang and N. Hur
45. CFD analysis of turbulent heat transfer in T-junctions with liquid sodium P. Ferrara and P. Di Marco
59. Eddy diffusivity associated to the North wind phenomenon in southern Brazil with application in an analytical dispersion model I.P. Alves, G.A. Degrazia, D. Buske, M. T. Vilhena and O.L.L. Moraes
73. Validation of a numerical model for simulating solar chimney performances D. Mezzasalma, G. Petrone, L. Cammarata, G. Cammarata
46. A four-step global reaction mechanism for CFD simulations of flexi-fuel burner for gas turbines A. Abou-Taouk, I.R. Sigfrid, R. Whiddon, L.E. Eriksson
60. Capturing transients in turbulent flows over complex urban areas with passive or reactive scalars S. Kenjeres, M. Van Der Houwen and S. De Wildt
74. Flow and heat transfer characteristics for helical heat exchanger using different turbulence models W.-C. Lin, Y.-M. Ferng, C.-C. Chieng
47. Non-premixed syngas MILD combustion: the trapped-vortex approach A. Di Nardo, G. Calchetti and C. Mongiello
61. Investigation of smoke plume behavior in corridor fire S. Gannouni, H. Saafi and R. Ben Maad
75. Numerical and parametric study of naturally ventilated photovoltaic panels integrated into buildings M. Jabbour, S. Giroux-Julien, H. Pabiou, H. Bouia, S. Benhamadouche, C. Ménézo
48 Two dimensional numerical simulation of a partially turbulent premixed flame impinging onto a wall using the LW-P model A. Neche, Z. Youbi, D. Karmed and M. Champion
62. Modelling of an advanced film cooling scheme for a gas turbine blade using TLC T. Borda, P. Flaszynski, P. Doerffer, M. Jewartowski and J. Stasiek
76. A numerical study of the ethanol-air mixture formation in the internal combustion engine M. Wendeker
49. Soot production in a turbulent methane-air flame accounting for both gas and particulate radiation C. M. Mazzoni, P. Venturini, D. Lentini and F. Rispoli
63. A comparative study of different methods for heat transfer enhanced by the use of TVG J. Baranski, M. Jewartowski and J. Stasiek
77. Simulation of the gas-particle flow in a cyclone separator R. V. Salvo, F. J. Souza and D.A.M. Martins
50. DNS on propagation of H2-air turbulent premixed flame in a constant volume vessel B. Yenerdag, N. Fukushima, M. Shimura, I. Yoshikawa, M. Tanahashi and T. Miyauchi
64. Methods of heat transfer intensification in application to mini and micro heat exchangers D. Mikielewicz, J. Wajs, J. Mikielewicz, M. Jaskólski and E. Ihnatowicz
78. Modelling of turbulence in screw compressor flows M. Kethidi, A. Kovacevic, N. Stosic and S. Rane
51. Simulation and experimental investigation of turbulent non-premixed flames at high pressure G. Singh, W. Boyette and W. Roberts
65. On the optimization of riblet’s configuration K. Okabayashi and T. Ikeda
79. Application of CFD in analysis of steady and unsteady turbulent flow pasta marine propeller S.E. Belhenniche, M. Aounallah, O. Imine and F. Çelik
52. Numerical study of a graphite rod burning under laminar and turbulent flow conditions M. Kestel, A. Richter and P.A. Nikrityuk
66. Pressure loss and wall heat transfer characteristics in blade trailing-edge cooling passage M. Effendy, Y.F. Yao and J. Yao
80. Prediction of Turbulent Heat Transfer around Pin-Fins M. Moon and K. Kim
53. Numerical modelling of particle fouling processes on dimpled surfaces J. Klunker and N. Kornev
67. Flat plate film cooling performance predictions by RANS turbulence models S. Inanli, I. Gorgulu, T. Okutucu and O. Uzol
81. CFD simulations of the impact of radiation on thermocouple measurement of hot gas jets S. Etemad
54. Reynolds number effect on particle-laden channel flow M. Smart, D.O. Njobuenwu and M. Fairweather
68. The operating processes in exhaust hood of steam turbine high pressure cylinder S. Alyokhina
82. The effect of RANS turbulence modeling on numerical analysis of flowmeter accuracy N.S. Kim, S.K. Lee, K.W. Seul and Y.J. Choi
55. Heat exchange between a vapour bubble and superheated liquid O.E. Ivashniov and M.N. Ivashneva
69. Numerical and experimental study of a micro gas turbine combustor F. Reale, R. Calabria, F. Chiariello, P. Massoli, R. Pagliata and R. Piazzasi
56. Prediction of gas solubility effects on the properties of slug flows G.R. Magalhaes, G.F.N. Goncalves, J.B.R. Loureiro and A.P. Silva Freire
70. Hybrid RANS/LES simulation of swirling flow in a hydroturbine draft tube A. Dekterev, A. Gavrilov, Ar. Dekterev, A. Minakov, D. Platonov, A. Sentyabov
17.30-18.00 CLOSING SESSION
Author Index
Abdurakipov S.V. P11 Abe K. 18.2 Abou-Taouk A. P46 Addad Y. 4.5 Afgan I. 18.6, 32.2 Afshari A. 22.1 Agelin-Chaab M. 31.2, P16 Agrawal A. 31.4 Ahlers G. 4.1 Alekseenko S.V. 10.4 Aloui F. 2.4 Alves I.P. P59 Alyokhina S. P68 Amano R.S. 24.1 Ammour D. 4.6 Ampadu-Mintah A.A. 31.2, P16 Andersson H.I. 9.3, 10.3,
P57 Ando H. 13.5 Angeli D. 18.5 Antonia R.A. 3.3, P2 Aounallah M. P79 Apsley D. 32.2 Arcen B. 17.1 Arcidiacono N. 9.7 Ardeshiri H. 22.1 Ariki T. P1 Armfield S.W. 4.4 Asano H. 13.4 Aung T.T. 19.6 Aupoix B. 15.1 Ayati A.A. 5.1 Baake E. 32.4 Baranski J. P63 Basara B. 21.3 Baskaya S. P34 Baum E. 1.5
Baumann T. 12.2 Baumann M. 1.5 Bazovkin A.V. 6.6 Beale S.B. 26.5 Becker S. 3.5 Belhenniche S.E. P79 Ben Maad R. P61 Benhamadouche S. 18.6, P75 Bentaleb Y. 1.1 Bergstrom D.J. 23.2, P8 Berrich E. 2.4 Bézard H. 12.4 Bhapkar U. 31.4 Biggs S. 17.3 Billard F. 15.5 Bilsky A.V. 6.6 Blackburn H.M. 6.4 Bodenschatz E. 4.1 Boguslawski L. P5 Böhm B. 1.5 Boiko A.V. 6.6 Boirlaud M. 5.2 Bonifazi F. 16.4 Borda T. P62 Bordja L. 29.1 Boroomand M. P14 Borrell R. 9.5, P13,
7.3 Bouia H. 4.2, P40,
P75 Boulenouare M. P31 Bovo M. P35 Boyette W. P51 Brandt L. 14.5 Brethouwer G. 23.1 Breuer M. 24.4 Brucato A. 17.5 Bruneaux G. 22.3
Buffat M. 14.6, 23.3 Bugg J.D. 23.2 Bull J.R. 9.2 Buron F. 32.6 Buschmann M.H. P7 Buske D. 20.6, P59 Calabria R. P69 Calafell J. 31.5 Calchetti G. P47 Caliskan S. P34 Cammarata L. P73 Cammarata G. P73 Cant R.S. 16.5 Carlier J. 2.2 Carnevale M. 21.1 Casciola C.M. 14.3, 14.5 Castonguay P. 18.1 Castro J. 17.6 Cavazzuti M. 18.5 Cecere D. 9.7 Çelik F. P79 Chakraborty N. 16.5,
25.4, P30 Chakravarty R. P8 Champion M. P48 Chen X.-B. P8 Chergui J. 7.4 Chiariello F. P69 Chieng C.-C. 32.5, P71,
P74 Chikishev L.M. 10.4 Chiva J. 7.3 Choi Y.J. P82 Chyu M. 32.5 Ciofalo M. 5.6, P25,
17.5 Cipollina A. 5.6, 17.5
Coletti F. 5.5 Couton D. 5.2 Craft T.J. 4.6, 28.1 Crespo Del Arco E. 29.1 Criscione A. P22 Csaba G. 8.7 Csecsődy S. P39 D’angelo Y. 22.2, 22.3 Da Silva C.B. P28 Dai R. 7.4 Dančová P. 2.3 Daverat C. 4.2 Davidson L. 24.2, P35 De Wildt S. P60 Deck S. 27.1 Degrazia G.A. P59 Deguchi K. 7.5 Dehoux F. 18.6 Dekterev A. 8.4, P70 Dekterev A. P70 Demoulin F.X. 33.1 Di Liberto M. P25 Di Marco P. P45 Di Mare F. 1.5, 12.1 Di Nardo A. P47 Didorally S. 12.4 Diethold C. 2.1 Djanali V.S. 4.4 Djenidi L. 3.3, P2 Doerffer P. 28.3, P62 Domingo P. 16.3, P23,
KL2 Donato F. 9.7 Doppler D. 14.6 Dorignac E. 26.2 dos Reis R.J.N. P28 Dost S. 7.6 Dreizler A. 1.5
Dulin V.M. 10.4, P11 Dumitra M. 6.2 Duret B. 33.1 Dyusembaeva A. P38 Eaton J.K. 5.5 Effendy M. P66 Einav I. 3.1 Ekaid A. P41 Elkins C.J. 5.5 Emory M. 7.7 Eriksson L.E. P46 Errico O. 18.5 Essel E.E. P16 Estruch O. 9.5 Etemad S. P81 Fabregat A. P44 Fairweather M 17.2, 7.3,
25.6, P20, P43, P54
Falle S.A.E.G. P20, 25.6, P43
Fatemi I. 5.4 Fénot M. 26.2 Ferng Y.-M. 32.5, P71,
P74 Ferrara P. P45 Flaszynski P. P62 Fokaides P. 20.3 Fornalik-Wajs E. 29.2 Franke M. 12.1 Freitag M. 27.6 Friess C. 27.3 Fritsching U. 30.2 Fröhlich J. 18.3 Fu S. 27.5 Fujii H. 11.3 Fukudome K. 23.4 Fukushima N. 19.4, P50 Funfschilling D. 4.1
Gärtner M. 27.6 Galione P. 17.6 Gambale A. 5.3 Gampert M. 16.1 Gannouni S. P61 Gatski T.B. 13.3, 20.1 Gavrilov A. 8.4, P70 Ge H.-W. 30.3 Gervais S. 8.1 Ghorbani A. 8.3 Giacomazzi E. 9.7 Giddings J.R. 25.6 Gima S. 7.6 Girimaji S.S. 15.2, 27.4 Giroux-Julien S. P40, P75 Gobyzov O.A. 6.6 Gomez C.A. 15.2 Gonçalves G.F.N. P56 Gorgulu I. P67 Gorlé C. 7.7 Gorobets A. P21 Goryntsev D. 25.1 Grigaitienė V. 29.3 Groll R. 7.2 Grosch C.E. 20.1 Gruschka M. P7 Gruselle C. 22.2 Gualtieri P. 14.3, 14.4 Gutheil E. 30.3 Habisreuther P. 16.6 Hadžiabdić M. 18.4, P29 Hagiwara Y. 11.3 Halbedel B. 2.1 Halilagić M. P29 Han X. 21.5, P24 Hanff E.S. 26.5 Hanjalić K. 18.4, P29 Harmand S. P36 Harun Z. 6.5 Hasegawa Y. 13.1
Hasse C. 25.3 Hassel E. 8.2, P9 Hattori H. 7.1 He X. 4.1 He S. 1.2 Hebrard J. P43 Henningson D.S. 14.5 Hernádi Z. P39 Hewitt G.F. 33.5 Hillbrunner F. 2.1 Hirota M. 13.4 Hori S. 13.4 Hoseini Dadmarzi F. 10.3 Hossain A. P26 Hossain M.S. P8 Hosseinzadeh A. 25.5 Houra T. 7.1, 28.2 Howard R.J.A. 8.1, 17.4,
P19 Hrebtov M. P3 Hu R.Y. 27.5 Hu Y. 30.3 Hudson M. 16.5 Hunter T.N. 17.3 Hur N. P72 Hyhlík T. 28.3 Iaccarino G. 7.7, P32 Iacovides H. 4.6, 28.1 Ihnatowicz E. P64 Iida H. 33.4 Iida O. 23.4 Ikeda T. P65 Ilyushin B.B. P3 Imine O. P31, P79 Inanli S. P67 Isebaba W. 20.2 Ivashneva M.N. P55 Ivashniov O.E. P55 Iwamoto K. 13.5
Jabbour M. P75 Jacob B. 14.4 Jakirlić S. 8.5, 27.6,
P22 Jakovičs A. 32.4 Jameson A. 18.1 Jamois D. P43 Janicka J. 1.5, 25.5 Jaskòlski M. P64 Jefferson-Loveday R. 26.3 Jensen A. 5.1 Jewartowski M. P62, P63 Jia L. 8.5 Jofre L. P18 Johansson A.V. 16.2, 23.1 Johnson G. 5.1 Johnson N. 28.1 Johnson R.W. P71 John-Puthenveettil G. 8.5 Jonker H. KL1 Kadowaki S. 19.6 Kähler C. 6.2 Kajima H. 1.3 Kajishima T. 11.4 Kaneda Y. 1.6 Kang S. 19.1, P72 Kao M. 32.5 Kardaś D. 25.2 Karimi M. 15.2 Karmed D. P48 Kasagi N. 13.1 Katragadda M. 25.4, P30 Kawada S. 13.6, P10 Kawaguchi Y. 13.5,
13.6, P10 Kawahara G. 1.4 Kawase T. P10 Kawata T. 2.5, 28.4 Kenjereš S. 29.2, P60 Kestel M. P52
Kethidi M. P78 Khair A. P26 Khali E. P37 Khalij M. 17.1 Kikuchi T. 33.4 Kim N.S. P82 Kim K.-Y. P80 Kintea D. P22 Kirkpatrick M.P. 4.4 Kitagawa A. 11.3 Kleinheinz K. 19.1 Klewicki J.C. 6.4 Klunker J. P53 Knopp T. 6.2 Knudsen E. 19.1 Kobayashi H. 29.4 Kolaas J. 5.1 Kolev N.I. 3.2 Komiyama M. 19.5 Kornev N. 8.2, P9,
P53 Kornilov V.I. 6.6 Koupriyanov M. 5.4, P16 Kovacevic A. P78 Kovenya V.M. 6.6 Kozono S. 21.2 Krajnović S. 1001, P24 Kravtsova A. 33.2 Kristóf G. P39 Kuchiki K. 19.4 Kuhn D. P26 Kunugi T. 33.4 Kurosawa T. 13.5 Kussaiynov K. P38 Kussaiynova A. P38 Kuwata Y. 15.6 Lakehal A. P36 Lalizel G. 26.2 Lampa A. 30.2 Laraufie R. 27.1
Lardeau S. 26.3 Lari K.S. 15.4 Laroche E. 12.4, 15.1 Launder B.E. 28.1 Laurence D. 4.5, 15.5 Laurien E. 3.5 Le Penven L. 23.3 Le Quéré P. 7.4 Lebedev A.S. 6.6 Ledl V. 2.3 Lee M. P72 Lee S.K. 3.3 Lee S.K. P82 Lefeuvre N. P2 Legrand J. 2.4 Lehmkuhl O. 7.3, 9.5,
31.5, P13, P18, P27
Lentini D. 16.4, P49 Lepeut C.-H. 28.4 Leschziner M.A. 1.1 Leveugle B. 22.3 Lin W.-C. P74 Lipatnikov A.L. 9.6 Liu N.-S. 30.1 Lodato G. 18.1 Lodier G. KL2 Lohász M.M. 8.7 Lopes D.C. P28 Loureiro J.B.R. 31.3, P56 Lybaert P. 5.3 Lukashov V.V. 19.3 Lupant D. 5.3 Maas U. 8.3 Magalhães G.R. P56 Maheu N. 9.1, P23 Makita H. 20.2 Maksimovic C. 15.4 Malandain M. 9.1 Malkeson S.P. P30
Manceau R. 18.6, 27.3 Markides C.N. 33.5, Markovich D.M. 6.6, 10.4,
33.2, P11 Markus D. 8.3 Martelli F. 21.1 Martinat G. 20.1 Martins D.A.M. 10.1, P77 Marusic I. 6.5 Maruyama N. 13.4 Masi E. 14.1 Massoli P. P69 Mastorakos E. 22.4 Matar O.K. 33.5 Matějka M. 28.3 Mathey F. 32.3 Mathis R. 6.5 Mazzoni C.M. P49 McEligot D.M. 3.5 Mcguirk J.J. 21.6 Mcnaughton J. 32.2 Mebarki G. 30.4 Mehdizadeh A. 27.2 Mehel A. P6 Meliga P. 26.1 Menard T. 33.1 Ménézo C. P40 Metzger B. 3.1, 13.2 Mezzasalma D. P73 Ménézo C. 4.2, P75 Micale G. 5.6, 17.5 Mikheev N.I. P4 Mikielewicz D. P64 Mikielewicz J. P64 Minakov A. 8.4, P70 Minakuchi H. 7.6 Miyakoshi T. 13.4 Miyauchi T. 19.4, P50 Mohri E. 13.4 Mojab S.M. 26.5 Mojgani R. P14
Molla M. P26 Mompean G. 13.3 Mongiello C. P47 Monty J.P. 6.5 Moon M.-A. P80 Moraes O.L.L. P59 Morsbach C. 12.1 Morvan D. 21.4 Motozawa M. 13.5 Moureau V. 9.1, 16.3,
22.2, P23 Mukai K. P15 Muramatsu A. 1.6 Nacke B. 32.4 Nagabhushana Rao V. 26.3 Nagami Y. 33.3 Nagano Y. 7.1, 28.2 Nagasaka W. 8.6 Nagata M. 7.5 Nait Bouda N. P36 Nakabe K. 8.6 Nakajima O. 8.6 Nakamura H. 10.2 Nakamura H. 2.6 Nambully S. 16.3 Narabayashi T. KL4 Narasimhamurthy V.D. 9.3, 10.3 Naud B. 11.1 Ndombo J. 8.1 Neche A. P48 Neophytou M.K.-A 20.3 Nicolai C. 14.4 Nikrityuk P.A. 26.4,
25.3, P52 Nishimura A. 13.4 Niu Y.-S. KL2 Njobuenwu D. O. 17.2, P54 Nobach H. 4.1 Norris S.E. 4.4 Nozu T. 20.4
Obi S. 2.5, 28.4 Oda Y. 21.2 Oertel H. 12.2 Ogawa Y. 19.5 Ohashi M. 20.4 Ohta T. 1.3 Okabayashi K. P65 Okano Y. 7.6 Okuda Y. 20.4 Okuda S. 28.4 Okuno Y. 29.4 Okutucu T. P67 Oliet C. P27 Oliva A. 7.3, 31.5,
P13, P18, P21
Onishi R. 14.2 Ooi A.S.H. 6.4 Oskouie S.N. 5.4 Osman K. 15.5 Otsuki T. 1.4 Otsuki T. 13.5 Pabiou H. 4.2, P75 Pagliara R. P69 Pain C. C. 9.2 Pakhomov M.A. 3.6 Pallares J. P44 Paniagua L. P27 Park J. P33 Parlapiano A. 5.6 Patil S. KL5 Patton E.G. KL1 Peakall J. 17.3 Pelle J. P36 Peng S.-H. 24.3 Penning R. 15.3 Pérez-Segarra C.D. 9.5, P27 Pervunin K. 33.2 Peters N. 16.1 Peterson B. 1.5
Petrone G. P73 Pettersen B. 10.3 Pharoah J.G. 26.5 Philips D.A. P32 Piazzesi R. P69 Picano F. 14.3, 14.5 Picchia F.R. 9.7 Pietrogiacomi D. 32.1 Piggott M.D. 9.2 Pinelli A. 1.4 Pitsch H. 725 Piva R. 14.4 Platonov D. P70 Plourde F. 5.2 Pollard A. 3.4, 26.5 Pouransari Z. 16.2 Prevel M. 14.6 Proust C. P43 Pržulj V. 15.3 Psota P. 2.3 Pujals G. 26.1 Puranik B. 31.4 Pyrda L. 29.2 Quadros R.S. 20.6 Rabbitt M. 17.4 Rahal S. 30.4 Raman V. P28 Rane S. P78 Rasti M. 28.4 Ray S. 26.6, P12 Reale F. P69 Reeks M.W. KL3 Reimann T. 8.5 Reis R. P28 Resagk C. 2.1 Reutov V.P. 9.4 Reveillon J. 22.3, 33.1 Reyes D.A. 27.4 Rhali O. 13.2
Rice H. 17.3 Richter A. 26.4, P52 Rigola J. 17.6 Rispoli F. P49 Roberts W. P51 Rochhausen S. 12.3 Rodriguez I. 17.6, 31.5
P13 Roekaerts D.J.E.M. 19.2 Rognon P. 3.1, 13.2 Roisman I.V. P22 Rolfo S. 32.2 Romano G.P. 32.1 Romvári L. P39 Rossi R. P32 Rostamy N. 23.2 Rudyak V. 8.4 Rybushkina G.V. 9.4 Saafi H. P61 Sabelnikov V.A. 9.6 Sadeghi H. 3.4 Sadiki A. 27.2,
25.1, 25.5 Safronov D. 25.3 Sagot B. 32.6 Saha S. 6.4 Saito T. 33.3 Sakipova S.E. P38 Salvadori S. 21.1 Salvo R.V. 10.1, P77 Samani M. P8 Sammak S. P14 Sancho I. P44 Sanvicente E. P40 Sardina G. 14.3, 14.5 Sarras G. 19.2 Satake S. 33.4, P17 Savino G. 32.1 Ščepanskis M. 32.4 Schaefer P. 16.1
Schanz D. 6.2 Schlatter P. 14.5, 23.1 Schmidt S. 24.4 Schröder A. 6.2 Schulze S. 25.3 Schwarz A. 25.5 Seddighi M. 1.2 Sehaba M. P31 Sekishita N. 20.2 Senda T. 13.5 Senoo T. 7.5 Sentyabov A. P70 Serre E. 8.1, 26.1,
29.1 Seul K.W. P33, P82 Séverac E. 18.3 Shala M. 15.3 Shapiro E. 15.3 Shih T. -H. 30.1 Shimura M. 19.4, P50 Sigfrid I.R. P46 Sikovsky D.P. 11.2 Silva Freire A.P. 31.3, P56 Silveira Neto A. 10.1 Simonin O. 14.1 Singh G. P51 Skála V. 28.3 Skjold T. 9.3 Smart M. P54 Sodjavi K. 2.2 Soldati A. 4.3 Souza F.J. 10.1, P77 Srivastava A. 31.4 Stalio E. 18.5 Stallard T. 32.2 Stansby P. 32.2 Stasiek J. P62, P63 Sternel D.C. 8.5 Stieglitz R. 12.2 Stosic N. P78 Stöllinger M.K. 19.2
Suga K. 15.6 Sullivan P.P. KL1 Sultan Q. 26.2 Sumner D. 23.2, P8 Suzuki Y. 20.5 Szmyd J.S. 29.2 Tachie M.F. 31.2, P16 Tafti D. KL5 Tagawa M. 7.1, 28.2 Takagi Y. 7.6 Takahashi K. 14.2 Takaki S. 2.6, 10.2 Takano K. 28.2 Takeishi K. 19.5, 21.2 Takeuchi S. 11.4 Tamburini A. 5.6, 17.5 Tamošiūnas A. 29.3 Tamura T. 20.4 Tanahashi M. 19.4, P50 Tanière A. 17.1 Tansykbaeva N. P38 Tatsumi K. 8.6 Taubert L. 6.1 Taufall S. 12.2 Terekhov V. 3.6, P41 Terekhov V.V. 19.3 Tewes P. 6.1 Thais L. 13.3 Thess A. 2.1 Timoshevskiy M. 33.2 Tiney N. 15.3 Tirabassi T. 20.6 Trávníček Z. 2.3 Trias F.X. P21 Trimis D. 26.6, P12 Trisjono P. 19.1 Tropea C. 27.6, P22 Truffin K. 22.3 Tsuchida Y. P15 Tsukahara T. 13.6, P10
Tsurumi D. 13.6, P10 Tsutsumi T. 11.4 Tucker P.G. 26.3 Tuković Ž. P22 Tully B. 5.4, P16 Tung Y.-H. 32.5, P71 Turnow J. P9 Tyliszczak A. 22.4 Uddin N. 31.1 Uhlmann M. 1.4 Umakawa H. 20.4 Uribe J. 17.4 Uzol O. P67 Valinčius V. 29.3 Van Der Houwen M. P60 Van Reeuwijk M. 15.4, KL1 Vanpouille D. 15.1 Varga G. P39 Vascellari M. 25.3 Vassilicos J.C. 14.2 Ventosa J. P18 Venturini P. P49 Vernet A. P44 Verstappen R.W.C.P. P21 Vervisch L. 6.2, 16.3,
KL2 Vigdorovich I. 6.3 Vilhena M.T. 20.6, P59 Vinkovic I. 14.6, 23.3 Vinokurova T.A. P11 Vit T. 2.3 Voigt T. 16.6 Volchkov E.P. 19.3 Wajs J. P64 Wallin S. 27.4 Walsh E.J. 3.5 Walter M. 8.2 Wang P.C. 21.6
Wang L. 27.5 Wang B.-C. 5.4, P26 Wardach-Święcicka I. 25.2 Wareing C.J. P20, P43 Wegfrass A. 2.1 Wei L. 23.1 Wendeker M. P76 Werner M. 2.1 Werzner E. 26.6, P12 Wetzel T. 12.2 Whiddon R. P46 Woolley R.M. 25.6, P20,
P43 Wygnanski I. 6.1 Xiao Z.X. 27.5 Xin S. 4.2, 7.4 Xu Z. 24.1 Yakush S.E. P58 Yamada S. 2.6, 10.2 Yamamoto A. 13.1 Yano H. P15 Yao Y. F. P37, P66 Yao J. P66 Yashiro J. 20.5 Yassine D. 29.1 Yasuda R. 20.5 Yenerdag B. P50 Yin X. 13.2 Yoon D.-H. P33 Yoshida A. 20.5 Yoshikawa S. 7.1 Yoshikawa I. 19.4, P50 Yoshimori H. P17 Youbi Z. P48 Yu W. 23.3 Zadrazil I. 33.5 Zaidi I. 4.5 Zaidi M. 31.1
Zalewski N. 6.1 Zanko P.S. P4 Zarzalis N. 16.6 Zhao L. P57 Zimmermann C. 7.2 Zonta F. 4.3
CONFERENCE VENUE THMT’12 – Facoltà di Ingegneria (building 7), Università degli Studi di Palermo, viale delle scienze, Palermo (Italy)
SUGGESTED HOTELS 1 – Grand Hotel Villa Igiea (Salita Belmonte, 43, 90142 Palermo, tel. +39 091 6312111) 2 – Excelsior Hilton (Via Marchese Ugo, 3, 90141 Palermo, tel. +39 091 7909001) 3 – Grand Hotel et Des Palmes (Via Roma, 398, 90139 Palermo, tel. +39 091 6028111)
HOW TO REACH THMT’12 A shuttle will bring attendees from Grand Hotel Villa Igiea to THMT’12. From Grand Hotel et Des Palmes: bus lines 104 or 108 (get off at ‘Basile Fac. Ingegneria’). Form Excelsior Hilton: bus line 104 (get off at ‘Basile Fac. Ingegneria’). Alternative route: bus 102 to ‘Piazza Notarbartolo’ (A), then metropolitan railway (one stop, ‘Palazzo Reale‐Orleans’).
GUIDED TOURS Half‐day guided tour in Palermo; Full‐day guided tour to Segesta and Erice; Half‐day guided tour to Cefalù; Half‐day guided tour to Monreale. Tours are organized by Eurocongressi adv. To book a tour please visit www.eurocongressi.it/en/#!thmt_tours.php
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3
1 1
2
3
THMT
THMT
A
A
B
Bus stop (line 104) Bus stop (line 108)
B A Metropolitan railway (A: Notarbartolo; B: Palazzo Reale)
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Bus stop (line 102)
B