28th PIV Course - Application of Particle Image Velocimetry - Theory and Practice

Weitere Informationen finden sie unter - Further information are available under - http://pivcourse.dlr.de/

 

Purpose of the Course

An important feature of PIV and LPT is that a reliable basis of experimental flow field data is provided for direct comparison with numerical calculations and hence, for validation of flow simulation codes. During the last years an increasing number of scientists have started to utilize the PIV techniques to investigate the instantaneous structure of velocity fields in various areas of fluid mechanics. A large number of different approaches for the recording and evaluation of PIV images have been described in literature. This course, which is the 28th course on PIV since 1993 organized by DLR, will mainly concentrate on those aspects of the theory of PIV relevant to applications. Besides giving lectures on the fundamental aspects, special emphasis is placed on the presentation of practical and reliable solutions of problems which are faced during the implementation of this technique in wind tunnels and other test facilities. During practice the participants will have the opportunity to carry out the recording and the evaluation of PIV images by themselves in small groups. Matured developments of the PIV technique such as Stereo PIV, Time Resolved PIV, Micro-PIV and recent innovations in 3D(t)-PIV/3D-PTV (tomographic and digital holographic PIV, LPT Shake-The-Box) will be discussed and demonstrated.

The main interest of today’s research in fluid mechanics is more and more directed to problems where unsteady and separated flows are predominant. For investigations of flow fields with pronounced spatial structures and/or rapid temporal or spatial changes (transition from laminar to turbulent flow, coherent structures, pitching airfoils in transonic flows with shocks, rotors, test facilities with short run time, etc.) optical experimental techniques, such as Particle Image Velocimetry (PIV) and Lagrangian Particle Tracking (LPT) are required which allow to capture the flow velocity of large flow fields instantaneously.

Iso-contour surfaces of Q-value color coded with the vertical velocity component showing turbulent vortical structures in a large scale cylindrical Rayleigh Bénard-Convection cell measured by 3D LPT using Shake-The-Box and interpolated by FlowFit data assimilation

Course Outline

Lectures (6 half days) and online experiments and demonstrations in the laboratory (3 half days) will run from 8:30 to 12:30 from Monday to Thursday and in the afternoon from 13:30 from Monday to Thursday, respectively. All presentations will be given in English.

Optional the book 'Particle Image Velocimetry - A practical guide (3rd Edition)' (published by Springer, 2018) and the USB-stick of proceedings of the PIV'19 symposium will be distributed to the participants after payment.

Registration will be possible online starting mid of October 2020.

Monday, March 15, 2021 (08:30-16:30)

• Welcome by Dr. Lars Koop, Head of Department of Experimental Methods, Institute of Aerodynamics and Flow Technology
• Principles of PIV technique: Flow tracing by particle imaging, light scattering, recording and analysis of PIV images
• Application of PIV technique: Considerations for design of PIV systems, PIV systems for wind tunnels
• Principles: Statistics of PIV images

Tuesday, March 16, 2021 (08:30-16:30)

• Application: Digital PIV, video recording, CCD/CMOS sensors 
• Principles: Theoretical aspects of evaluation of digital PIV recordings, cross-correlation, image deformation, peak detection, evaluation of stereoscopic PIV recordings 
• Application: Practical aspects of evaluation of digital PIV recordings, measurement uncertainties, combined PIV/LIF 

Wednesday, March 17, 2021(08:30-16:30)

• Principles: Advanced techniques, optical principles of stereoscopic, tomo- and holographic methods, 3D-PTV methods, data validation 
• Application: Multiplane Stereo-, Micro- and Time Resolved PIV, PIV for multiphase flows, vector field operators, data analysis and presentation 
• Online-Practice I

Thursday, March 18, 2021 (08:30-17:00)

• Principles: 3D STB LPT for TR-, 4-pulse- and 2-pulse-STB, IPR, VSC, OTF, TrackFit, FlowFit data assimilation
• Applications: STB and bin-averaging, STB in fluid mechanics and aerodynamics, FlowFit and 3D pressure, VGT, dissipation rate 
• Online-Practice II

Friday, March 19, 2021 (08:30-13:00)

• Online-Practice III

Practices:

• Optics: imaging, Laser illumination, Fourier optics, density measurements (Background oriented Schlieren - BOS)
• Image capture in wind tunnel: seeding, Laser, illumination optics, triggering, CMOS recording, optical distortions, Time Resolved Stereo PIV
• Image capture for large scale air flows: pulsed LEDs, CCD/sCMOS cameras recording, Helium-Filled-Soap-Bubbles, Shake-The-Box
• Evaluation and post-processing: cross-correlation methods, data validation, data analysis and presentation
• PIV related techniques: high-speed video systems, sequencer technique, holographic PIV

 

Lecturers

Prof. Jerry Westerweel, Delft University of Technology (TUD), The Netherlands, will discuss the theoretical basis of the digital PIV technique.

Prof. Christian Poelma, TUD, will discuss combined PIV/LIF and Micro PIV in his lectures.

Prof. Christian Kähler, UniBw München will discuss Stereo and Multi-plane PIV aspects and the advances in Time Resolved- and long range micro-PIV.

Dr. Bertrand Lecordier, Rouen University (CORIA), France, will present the lectures on the optical aspects of PIV.

Dr. Gerd Gülker, Carl von Ossietzky Universität, Oldenburg, Germany, is working in the field of Holography and Particle Image Velocimetry and will present the lectures on advanced 3D PIV techniques.

Prof. Andreas Schröder, Institute of Aerodynamics and Flow Technology, DLR, Göttingen, will organize the PIV course, which was established in 1993 by Dr. Jürgen Kompenhans. In the past Prof. Markus Raffel and Dr. Christian Willert have provided the foundations of PIV application in wind tunnels. In recent years Dr. Daniel Schanz, Dr. Matteo Novara, Dr. Sebastian Gesemann and Prof. Andreas Schröder provided the foundations of STB and FlowFit applications for fluid mechanics and aerodynamic research.

Together with Prof. Markus Raffel, Dr. Chris Willert, Dr. Klaus Ehrenfried, Dr. Boleslaw Stasicki, Dr. Reinhard Geisler, Dr. Daniel Schanz, Dr. Matteo Novara, Dr. Sebastian Gesemann, Dr. Johannes Bosbach, Dipl.-Ing. Janos Agocs and Dr. Christian Wolf from DLR they will present their knowledge and experience in different areas of the PIV and LPT technique such as tracer particles, illumination, recording, evaluation, data presentation, 3D(t)-PIV / PTV / STB, FlowFit and other 3D3C-PIV and LPT techniques.

Who should attend?

This course is mainly intended for engineers, scientists and students, who have already some basic knowledge of the PIV and LPT/PTV techniques and have just started to utilize PIV or LPT for their special industrial or scientific applications or plan to do so in near future. During the course many problems arising in the recording and evaluation of PIV and LPT images will be treated - in theory as well as in practice.

Exhibition of equipment

An exhibition of equipment from major manufacturers of PIV systems will take place from March 19 to 20, 2020.

Exhibitors in 2019:

• DANTEC Dynamics GmbH, Ulm: PIV systems
• ILA GmbH, Jülich: Optical flow measurement techniques
• LaVision GmbH, Göttingen: PIV systems
• Litron Lasers Ltd.: Laser Systems
• Palas GmbH, Karlsruhe: Aerosol and particle technology
• PCO AG, Kelheim: CCD/CMOS cameras
• Excelitas Tech. Qioptiq Photonics GmbH, Göttingen: Photonic products and solutions
• Lumibird, Köln: Laser systems
• TSI GmbH, Aachen: PIV systems

Registration to PIV Course 2021

Early registration is desired. The registration fee of 450 € includes the PIV Book 3rd edition and the USB-stick with proceeding from the PIV'19 symposium. For payments received before January 31, 2021, a reduced registration fee of 400 € applies.

Payments are to be made by credit card or bank transfer.

A cancelation fee of 200 € will be charged from registered persons who cancel their participation after February 28, 2020.

The fee for participation is free of VAT as far as the German Umsatzsteuergesetz (UStG) is concerned.

 

Travel Information

The official Website of the City of Göttingen gives an overview and helpful background information.

Location of DLR in Göttingen

The airports closest to Göttingen are:

•     Frankfurt - http://www.frankfurt-airport.com
•     Hannover - http://www.hannover-airport.de

ICE high-speed trains run frequently from both airports into Göttingen. Please check the German Railway Time Table

Approaching Göttingen by car is easy by following the online road-map to:

Bunsenstraße 10, 37073 Göttingen

DLR is within walking distance from train-station (15 mins)

Hotel Reservation

We asked for a block reservation at:

EDEN Hotel
Reinhäuser Landstraße 22a
37083 Göttingen
Tel : +49 551 5072 00
Fax: +49 551 5072 111
http://www.eden-hotel.de

Price per room: 89 € (reservation before 20.02.2020, attention Mrs. Jung) with reference to "DLR PIV-Course 2020".

Eden Hotel is located within walking distance from DLR (5 mins), the centre of Göttingen (10 mins) and the railway station (20 mins).

Alternatives are available by asking for support from Tourist-Information Göttingen
Altes Rathaus, Markt 9
37073 Göttingen
Tel: +49 551 49980-0
Fax: +49 551 49980-10
http://www.goettingen-tourismus.de