1st Eucass Workshop on Advanced Aerospace Designs by Innovative Flow Control Technology

(Posponed and joined with EUCASS2021)


HomeOrganizationInvited speakersImportant datesRegistrationCall for AbstractsVenue

Call for abstracts

Procedure

The abstract must be submitted in PDF format at eucass-lille@univ-lille.fr before
January 15th 2019 a date to be defined .

The authors should use one of the following templates either in Latex or Word format. The abstract is limited to 4 pages and will not be published. A booklet of abstracts will be distributed to the participants.

For any question, please contact eucass-lille@univ-lille.fr.

List of Topics


Laminar Flow Control Technology

  • Designs
  • Gap managing
  • Actuators (piezo-electric, magneto-mechanic, cross flow straighteners, microjets, …)
  • Intelligent – Adaptive surfaces


Turbulent Flow Control Technology

  • Materials – actively controlled porosity
  • Actuators – (piezo-electric, magneto-mechanic, microjets,…)
  • Intelligent – adaptive surfaces
  • Combined actuator / sensor techniques
  • Hybrid active riblet surface
  • Plasma arrays
  • Passive acoustic methods


Engines

  • Laminar + turbulent flow (see above)
  • Noise cancelling – active acoustic liners – MEMS
  • Heat managing
  • Boundary Layer Ingestion
  • Distributed propulsion – cancelling shear flow effects


Control strategies

  • Open or close loops
  • Machine learning


Call for abstracts

Procedure

The abstract must be submitted in PDF format at eucass-lille@univ-lille.fr before
January 15th 2019 a date to be defined .

The authors should use one of the following templates either in Latex or Word format. The abstract is limited to 4 pages and will not be published. A booklet of abstracts will be distributed to the participants.

For any question, please contact eucass-lille@univ-lille.fr.

List of Topics


Laminar Flow Control Technology

  • Designs
  • Gap managing
  • Actuators (piezo-electric, magneto-mechanic, cross flow straighteners, microjets, …)
  • Intelligent – Adaptive surfaces


Turbulent Flow Control Technology

  • Materials – actively controlled porosity
  • Actuators – (piezo-electric, magneto-mechanic, microjets,…)
  • Intelligent – adaptive surfaces
  • Combined actuator / sensor techniques
  • Hybrid active riblet surface
  • Plasma arrays
  • Passive acoustic methods


Engines

  • Laminar + turbulent flow (see above)
  • Noise cancelling – active acoustic liners – MEMS
  • Heat managing
  • Boundary Layer Ingestion
  • Distributed propulsion – cancelling shear flow effects


Control strategies

  • Open or close loops
  • Machine learning



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