MEMS technology first emerged in the late 1980?s. It is based on miniaturised, integrated systems fabricated using techniques derived from integrated-circuit production. A micro-system incorporating transducers and logic circuitry is capable of sensing, signal processing and actuation. Initial developments were driven by automotive and medical applications. However, since the mid-nineties there has been a growing interest in the use of MEMS for aeronautical applications. The advantages of MEMS in miniaturisation, integration and batch fabrication promise to revolutionise flow control concepts through their ability for the non-intrusive detection of coherent flow structures and their modulation through adaptive wall changes, transpiration and heat transfer. Even more recently the gas turbine engine industry has shown a growing interest in the application of smart sensors and flow control based on MEMS technology.

The present lecture series is the first in Europe to be entirely devoted to the subject of MEMS and active flow control. It has been designed to enhance awareness of MEMS; to raise the interest of newcomers in this leading edge technology; to provide experienced fluid dynamists, already active in this field, with information on recent progress on flow control and to provide research managers with information to prepare decisions on future research and development strategies.

The first lectures in the series introduce MEMS and describe the most relevant fabrication processes supported with practical examples. The principles of MEMS operation, design and analysis are explained followed by a discussion of the fluid flow phenomena and models relevant to micro-devices. Subsequent lectures focus on specific aspects of flow control starting with current ideas and methods as well as futuristic strategies for the control of transition, turbulence and separation. The design, fabrication and operating characteristics of the most commonly used flow sensors and actuators are described through experiments, theory and modelling. Several lectures are then devoted to describing practical examples of the use of MEMS for the control of wall-bounded turbulence, boundary layer separation and wake development. The lecture series concludes with an outlook on the industrial perspectives of MEMS for active flow control. The lecturers are among the most renowned international experts in the field.

08.45 Registration

09.00 Welcome, introductory remarks

09.30 Introduction to active control and MEMS

Dr. C. Warsop, BAE SYSTEMS, UK

11.00 MEMS micromachining processes

Prof. B. Puers, Katholieke U. Leuven, Belgium

14.00 MEMS micromachining processes (cont?d))

Prof. B. Puers

15.45 Principles of MEMS, design and analysis and overview of operating principles

Dr. C. Warsop

17.00 Welcome drink

Tuesday 16 April 2002

09.00 Flow physics in MEMS design and applications

Prof. M. Gad-el-Hak, U. of Notre Dame, USA

10.45 Flow physics in MEMS (cont?d)

Prof. M. Gad-el-Hak

14.00 Reactive flow control: a useful application of MEMS

Prof. M. Gad-el-Hak

15.45 Reactive flow control (cont?d)

Prof. M. Gad-el-Hak

Wednesday 17 April 2002

09.00 Design and fabrication of MEMS wall shear-stress and pressure sensors

Prof. L. Löfdahl, Chalmers U. of Techn.,Sweden

10.45 MEMS wall shear stress sensors: experiments, theory and modelling

Prof. L. Löfdahl

14.00 MEMS actuators for flow control: design, fabrication and performance

Prof. K. Breuer, Brown U., USA

15.45 Visit of VKI laboratories

Thursday 18 April 2002

09.00 MEMS actuators for flow control (cont?d)

Prof. K. Breuer

10.45 Applications to flow separation control

Dr. C. Warsop

14.00 Applications to the control of wall-bounded turbulence, including drag reduction

Prof. K. Breuer

15.45 Applications within turbomachinery

Prof. W. Ng, Virginia Polytechnic Institute, USA

Friday 19 April 2002

09.00 Applications within turbomachinery (cont?d)

Prof. W. Ng

10.45 An industrial perspective on the application of MEMS for active flow control

Dr. C. Warsop

12.15 Closure (Departure of VKI Bus around 14.00)