Heat transfer on accreting ice surfacesBased on previous observations of glaze ice accretion, a 'Multi-Zone' model with distinct zones of different surface roughness is demonstrated. The use of surface roughness in the LEWICE ice accretion prediction code is examined. It was found that roughness is used in two ways: to determine the laminar to turbulent transition location and to calculate the turbulent heat transfer coefficient. A two zone version of the Multi-Zone model is implemented in the LEWICE code, and compared with experimental heat transfer coefficient and ice accretin results. The analysis of the boundary layer transition, surface roughness, and viscous flow field effects significantly increased the accuracy in predicting heat transfer coefficients. The Multi-Zone model was found to greatly improve the ice accretion prediction for the cases compared.
Document ID
19900035126
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Yamaguchi, Keiko (Massachusetts Inst. of Tech. Cambridge, MA, United States)
Hansman, R. John, Jr. (MIT Cambridge, MA, United States)