Programme EDRFCM 2008

 

 

Time

Monday, 8 Sept

Tuesday, 9 Sept

Wednesday, 10 Sept

Thursday, 11 Sept

8:30 – 9:00

Welcome (8:45)

ADD1

PL1

TDR5

9:00 – 9:30

BLC1

ADD2

PL2

BLC7

9:30 – 10:00

BLC2

ADD3

PL3

BLC8

10:00 – 10:30

BLC3

ADD4

PL4

Coffee

10:30 – 11:00

Coffee

Coffee

Coffee

BLC9

11:00 – 11:30

TDR1

BLC4

PL5

MHD1

11:30 – 12:00

TDR2

BLC5

PL6

MHD2

12:00 – 12:30

TDR3

BLC6

PL7

Lunch

12:30 – 13:00

TDR4

Lunch

GFC1

13:00 – 13:30

Lunch

Lunch

13:30 – 14:00

 

14:00 – 14:30

Excursion

 

approx.

14:00 – 17:00

14:30 – 15:00

BB1

Round table discussion

15:00 – 15:30

BB2

15:30 – 16:00

BB3

16:00 – 16:30

Coffee

16:30 – 17:00

BB4

17:00 – 17:30

BB5

 

 

 

19:00

Workshop Dinner

 

 

All abstracts are contained in a printed Book of Abstracts which is handed out to meeting participants. Additionally, electronic versions of abstracts can be downloaded below. The user name and password can be found in the Book of Abstracts.

Bluff Bodies (BB)

 

BB1:  Passive and active control of the flow around ahmed body

           (Bruneau, C.H.; Mortazavi, I.; Creuse, E.)

BB2:  LES of active drag control for a generic vehicle by steady blowing

           (Wassen, E.; Thiele, F.)

BB3:  Vehicle Aerodynamics: Results & Prospects in Active Flow Control

           (Gallas, Q.; Gillieron, P.; Kourta, A.)

BB4:  Drag reduction of flow past a sphere with hydrophobic wall

           (Fujita, T.; Watanabe, K.)

BB5:  Dynamics of controlled boundary layer separation on a circular cylinder

           (Uruba, V.; Matejka, M.)

 

 

Boundary Layer Control (BLC)

 

BLC1:  Numerical experiments on flow manipulation of near wall turbulence by surface structuring

             (Lammers, P.; Jovanovic, J.; Delgado, A.)

BLC2:  Turbulent boundary layer on a structured coating

             (Voropayev, G.; Zagumenniy, Ya.)

BLC3:  Effect of induced hairpin vortices on the turbulent boundary-layer

             (Liu, J.; Choi, K.-S.)

BLC4:  Generation of vortical structures in a boundary layer by a cavity

             (Voropayev, G.; Rozumnyuk, N.)

BLC5:  Transient operating of a fluidic actuator

             (Braud, C.; Dyment, A.; Foucaut, J.M.; Stanislas, M.; Kostas, J.)

BLC6:  Feasibility study of flow control by dynamic vane vortex generators based on piezoceramic actuators

             (Barth, T.; Scholz, P.; Wierach, P.)

BLC7:  Tollmien-Schlichting wave control using active wave cancellation

             (Quadros, R.; Grundmann, S.; Tropea, C.)

BLC8:  Damping of Tollmien-Schlichting waves with Galerkin model and MPC based wall control

             (Losse, N.; King, R.; Zengl, M.; Rist, U.)

BLC9:  Drag reduction by active wave control in wind tunnel and flight experiments

             (Pätzold, A.; Peltzer, I.; Nitsche, W.)

 

 

General Flow Control (GFC)

 

GFC1:   Optimal flow control: Maximizing lift under drag constraints

              (John, C.; Wachsmuth, D.)

 

 

Turbulent Drag Reduction (TDR)

 

TDR1:  The estimation of possibilities of compliant coatings to effect on drag reduction

             (Kulik, V.M.)

TDR2:  Turbulent drag reduction by oscillating riblets

             (Grüneberger, R.; Hage, W.; Meyer, R.; Kramer, F.; Thiele, F.; Wassen, E.)

TDR3:  On the model reduction of a shape design problem of riblets in the viscous sublayer using homogenization

             (Friedmann, E.)

TDR4:  Modification of turbulent friction drag by streamwise-traveling waves of spanwise wall velocity

             (Ricco, P.; Quadrio, M.; Viotti, C.)

TDR5:  Physical mechanisms for turbulent drag reduction in riblet-like surfaces

             (Garcia Mayoral, R., Jimenez, J.)

 

 

Plasma Flow Control (PL)

 

PL1:  Flow field behavior in proximity of a plasma actuator

           (Kriegseis, J.; Grundmann, S.; Tropea, C.)

PL2:  On the development of a starting vortex in still air at the initiation of DBD plasma

           (Whalley, R.; Jukes, T.; Choi, K.-S.)

PL3:  Microphone pitot-probe measurement of the instationary flow induced by a dielectric barrier discharge

           (Wilke, J.B.; Rosemann, H.)

PL4:  Active-wave cancellation with plasma actuators using closed-loop control circuits

           (Grundmann, S.; Güttler, A.; Tropea, C.)

PL5:  Control of Dynamic Flow Separation Using Surface Plasma

           (Jukes, T.; Choi, K.-S.)

PL6:  Unmanned aerial vehicle with plasma actuators for separation control

           (Duchmann, A.; Frey, M.; Grundmann, S.; Tropea, C.)

PL7:  Plasma actuators as a means to enhance sailboat wing performance

           (Vey, S.; Nayeri, C.N.; Paschereit, C.O.)

 

 

MHD

 

MHD1:  On the efficiency of MHD drag reduction

              (Shatrov, V.; Gerbeth, G.)

MHD2:  Electromagnetic excitation of separated flows: Coherent structures and mean flow features

              (Weier, T.; Cierpka, C.; Gerbeth, G.)

 

 

Additives (ADD)

 

ADD1: Scaleout of pipeline drag reduction by wall-injected polyox to marine boundary layers ( page 2)

             (Virk, P.; Whittaker, J.; Funakoshi, F.; Pradhan, N.)

ADD2: Drag reduction in turbulent pipe flow by rigid fibre additives

             (Delfos, R.; Hoving, J.; Gillissen, J.J.J.; Westerweel, J.; Boersma, B.J.)

ADD3: Drag reduction using fibers and semi-rigid polymers

             (Wömpner, H.-V.; Thevenin, D.; Manhart, M.)

ADD4: Frictional Drag Reduction Promoted by Intermittent Bubble Injection

             (Park, H.J.; Oishi, Y.; Murai, Y.; Tasaka, Y.; Takeda, Y.)