Heat Transfer from Ice Accretion - PowerPoint PPT Presentation

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Heat Transfer from Ice Accretion

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Scholar's Day: Aeronautical & Processing Applications. Rogers Engineering Building ... Chord- Distance between the leading and trailing edge of a wing, ... – PowerPoint PPT presentation

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Title: Heat Transfer from Ice Accretion


1
Heat Transfer from Ice Accretion
A Study to Better Predict and Prevent Ice Buildup
on Aircraft Wings
Scholars Day Aeronautical Processing
Applications Rogers Engineering Building February
1, 2008
  • Steven Mart
  • Baylor University

2
Outline
  • Basic Aerodynamic Definitions
  • Aircraft Icing Background
  • The Problems
  • Ice Formation
  • Ice Removal
  • Research Model Goals
  • Questions

3
Basic Aerodynamic Definitions
Leading Edge
Trailing Edge
  • Chord- Distance between the leading and trailing
    edge of a wing, measured in the direction of the
    normal airflow
  • Angle of attack (a)- Angle between the chord line
    and the relative airflow
  • Reynolds Number (Re)- Ratio of inertial forces to
    viscous forces

4
Why Icing Is A Problem
  • Icing is serious flight safety concern
  • Most serious during take-offs and landings (high
    lift demands)
  • With ice, must fly at higher angles of attack
    (higher drag)
  • Ice causes early separation
  • Lift drops drastically
  • Flow no longer in contact with control surfaces

5
Why Icing Is A Problem (cont.)
Courtesy Gent et al. (2000)
6
The Accretion of Ice
V
AIRFOIL
CLOUD OF SUPERCOOLED WATER DROPLETS
  • Shape, amount and type of ice determined by
  • Velocity
  • Temperature
  • Liquid Water Concentration (LWC)
  • Droplet Size (MVD)
  • Ice Accretion Time (t)

7
Ice Spectrum
Rime Ice
Glaze Ice
Mixed Ice
  • Rime and glaze ice are the two main varieties of
    aircraft ice
  • Mixed ice, a combination of both rime and glaze
    ice, can also form
  • Will focus on glaze ice during experimentation
    due to its tendency to form during take-offs and
    landings

8
Glaze Ice
  • In general, occurs at temperatures near 32oF and
    high LWCs
  • Drops do not freeze on impact
  • Ice is clear
  • Horns may appear
  • Surface tends to be covered with roughness
    elements
  • Physical mechanism of formation not well
    understood

V225 mph Ttotal25 OF LWC0.75 g/m3 MVD20 mm
t5 minutes
9
Icing Prevention and Removal Techniques
  • Anti-icing (ice prevention)
  • Deicing (ice removal)
  • Heated wings-Hot compressor bleed air is directed
    into sections of the wing increasing its surface
    temperature
  • Weeping wings-Fluid (a water and glycol mix) is
    pumped through a mesh panel on the wings leading
    edge
  • Clean wings can also be sprayed with glycol based
    fluids to protect against freezing for a limited
    time
  • Pneumatic boots-attached to wings and are
    inflated with air in order to break off any ice
    that has accumulated on them
  • If wings have accumulated ice, a heated glycol
    and water mix is sprayed on the wings to remove it

10
Goals of Research
  • Looking to expand on the research of Henry,
    Hansman, and Breuer (1995).
  • Henry et al. was the first to study the heat
    transfer of a scale roughness element
  • Assumed conduction through plate and surface
    radiation to ambient were negligible
  • Trying to further their findings by considering
    the effects of conduction through the plate
  • Establish a better understanding of what physical
    events are transpiring

11
Research Model
  • Thin plate with simulated ice accumulation
  • Use of the Baylor University Subsonic Wind
    Tunnel to establish a controlled airflow
  • Measure the heat transfer across the plate with
    infrared cameras

12
Baylor University Wind Tunnel
  • 24 by 24 Test Section Test Range 0 150 ft/s
    Open loop tunnel
  • Larger test area will allow for a larger scale
    model reducing the required velocity of airflow
    in order to match Reynolds number

13
Potential Impacts
  • Open the door for further research
  • Allow for more complex and precise simulations of
    ice accretion
  • Capability to better predict and prevent the
    icing of aircraft

14
Summary
  • Glaze ice is a serious problem due to its
    susceptibility to form during take-offs and
    landings, when lift demands are at their greatest
  • Looking to expand upon the research of Henry et
    al. with the consideration of plate conduction
  • Attempting to gain a better understanding of the
    heat transfer due to glaze icing

15
Thank you!
  • Questions?
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