Ice accreation: Difference between revisions

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* The second approach is diminishing ice nucleation and prevention of supercooled droplets to freeze upon impact.  
* The second approach is diminishing ice nucleation and prevention of supercooled droplets to freeze upon impact.  
* Third approach is to utilize different methods for example both active (heating) and passive (surface treatment) in order to minimize ice nucleation and accretion. <ref>M. Farzaneh, Atmospheric icing of power networks. Springer, London, United Kingdom, 2008, 381 p.</ref>
* Third approach is to utilize different methods for example both active (heating) and passive (surface treatment) in order to minimize ice nucleation and accretion. <ref>M. Farzaneh, Atmospheric icing of power networks. Springer, London, United Kingdom, 2008, 381 p.</ref>
== References ==

Latest revision as of 13:12, 16 February 2022

Prevention of ice accretion can be achieved by following different approaches.

  • The first way is to minimize ice adhesion between the ice and surface below it.
  • The second approach is diminishing ice nucleation and prevention of supercooled droplets to freeze upon impact.
  • Third approach is to utilize different methods for example both active (heating) and passive (surface treatment) in order to minimize ice nucleation and accretion. [1]

References

  1. M. Farzaneh, Atmospheric icing of power networks. Springer, London, United Kingdom, 2008, 381 p.