Mix experiments using a two-dimensional convergent shock-tube-Reference-Cited by-同舟云学术

Mix experiments using a two-dimensional convergent shock-tube

Published:2003-07 Issue:3 Volume:21 Page:403-409
ISSN:0263-0346
Container-title:Laser and Particle Beams
language:en
Short-container-title:Laser Part. Beams

Author:

HOLDER D.A.,SMITH A.V.,BARTON C.J.,YOUNGS D.L.

Abstract

This article reports the first Richtmyer–Meshkov instability experiments using an improved version of the Atomic Weapons Establishment convergent shock tube. These investigate the shock-induced turbulent mixing across the interfaces of an air/dense gas/air region. Multipoint ignition of a detonatable gas mixture produces a cylindrically convergent shock that travels into a test cell containing the dense gas region. The mixing process is imaged with shadowgraphy. Sample results are presented from an unperturbed experiment and one with a notch perturbation imposed on one of the dense gas interfaces. The unperturbed experiment shows the mixing across the dense gas boundaries and the motion of the bulk dense gas region. Imposition of the notch perturbation produces a mushroom-shaped air void penetrating the dense gas region. Three-dimensional simulations performed using the AWE TURMOIL3D code are presented and compared with the sample experimental results. A very good agreement is demonstrated. Conducting these first turbulent mixing experiments has highlighted a number of areas for future development of the convergent shock-tube facility; these are also presented.

Publisher

Hindawi Limited

Subject

Electrical and Electronic Engineering,Condensed Matter Physics,Atomic and Molecular Physics, and Optics

Reference3 articles.

1. Holder, D.A. , Smith, A.V. , & Youngs, D.L. (2003).Shock tube experiments on Richtmyer–Meshkov instabilitygrowth using an enlarged double bump perturbation.Laser Part. Beams 21,411–418.

2. Holder, D.A. , Smith, A.V. , Philpott, M.K. , & Millar, D.B. (1999).First mix experiments on the AWE convergent shock tube.Proc. 7th Int. Workshop on the Physics of Compressible TurbulentMixing.( Meshkov, E. , Yanilkin, Yu. & Zhmailo, V. , Eds.). pp.28–32.Sarov, Russia:RFNC-VNITEF.

3. Smith, A.V. , Holder, D.A. , Philpott, M.K. , & Millar, D.B. (1999).Notch and double bump experiments using the 200 × 100 mmlinear shock tube.Proc. 7th Int. Workshop on the Physics of Compressible TurbulentMixing.( Meshkov, E. , Yanilkin, Yu. & Zhmailo, V. , Eds.). pp.124–130.Sarov, Russia:RFNC-VNITEF.

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