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The aerodynamics of smoke particle sampling

The aerodynamics of smoke particle sampling. Jonas Hedin, Jörg Gumbel, Markus Rapp Department of Meteorology Stockholm University. Outline. Introduction Modelling Gas flow, particles Detector designs ECOMA, MAGIC Summary/Outlook. Introduction. Supersonic speeds

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The aerodynamics of smoke particle sampling

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  1. The aerodynamics of smoke particle sampling Jonas Hedin, Jörg Gumbel, Markus Rapp Department of Meteorology Stockholm University

  2. Outline • Introduction • Modelling • Gas flow, particles • Detector designs • ECOMA, MAGIC • Summary/Outlook

  3. Introduction Supersonic speeds • Compression & rarefaction • Composition changes • Chemical reactions • Payload glow • Flow-dependent sampling efficiencies • Doppler influence • Outgassing...

  4. Introduction Different flow regimes • From continuum to free molecular flow via the transition regime • Knudsen number, Kn=λ/L

  5. Gas flow modelling Direct Simulation Monte Carlo model (DSMC, G. A. Bird) • Two-dimensional and axially symmetric • From continuum to free molecular flow

  6. Gas flow modelling • The DSMC model analyses the behaviour of individual gas molecules • Basic inputs are the properties of the undisturbed gas flow and the relevant properties of the payload • Macroscopic flow properties like density, temperature and velocity fields are obtained

  7. Particle flow modelling • Nanometer-sized particles tend to follow the airflow around payload structures • Aerodynamic considerations are of critical importance since we want the particles to hit the detector

  8. ECOMA Detection surface, 0 V -6.2 V +6.2 V

  9. ECOMA

  10. ECOMA

  11. ECOMA

  12. ECOMA

  13. ECOMA

  14. MAGIC Sampling surface

  15. Summary • We can model the gas flow and particle flow (neutral and charged) for different detector designs • Aerodynamical considerations are of critical importance in the design of rocket-borne instruments for in-situ measurements in the MLT region • Threshold sizes for the detection of meteoric smoke particles have been modelled

  16. Outlook • Brownian motion • Statistical motion of the particles, outgassing and desorption • Electric and magnetic fields • 3D simulation • Asymmetric payloads, different angles of attack • Many open questions • E.g. what happens when the particle hits the detector surface?

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