Experimental study of air injection effect on to the surface for preventing ice formation

Abstract: In order to prevent the ice-accretion on the airfoil surface, an experimental study was conducted to investigate effect of injecting surrounding air from the surface into the main flow. For this purpose, holes were created at the leading edge of the airfoil. Five parameters of diameter, pitch, angle of position, holes arrangement, and velocity of the outlet flow from the holes were sought. Using principles of experimental design by two-level fractional factorial method, required tests were designed and determi… Show more

“…In this examination, excellent ice phobic coatings were chosen as superhydrophobic surface (SHS) and polytetrafluoroethylene (PTFE or Teflon). Barzanouni et al [7] led a trial examination to investigate the impact of mixing encompassing air from the surface into the primary stream to forestall ice development on an airfoil surface. Openings were bored into the main edge of the airfoil for this reason.…”

Study of self-healing capability of composite material with phase changing paraffin wax and graphene

“…In this examination, excellent ice phobic coatings were chosen as superhydrophobic surface (SHS) and polytetrafluoroethylene (PTFE or Teflon). Barzanouni et al [7] led a trial examination to investigate the impact of mixing encompassing air from the surface into the primary stream to forestall ice development on an airfoil surface. Openings were bored into the main edge of the airfoil for this reason.…”

Study of self-healing capability of composite material with phase changing paraffin wax and graphene