Progress in Rotorcraft Icing Computational Tool Development

Richard E. Kreeger; Lakshmi Sankar; Robert Narducci; Robert Kunz

doi:10.4271/2015-01-2088

Progress in Rotorcraft Icing Computational Tool Development

Richard E. Kreeger, Lakshmi Sankar, Robert Narducci, Robert Kunz

Mechanical Engineering

Research output: Contribution to journal › Conference article › peer-review

12 Scopus citations

Abstract

The formation of ice over lifting surfaces can affect aerodynamic performance. In the case of helicopters, this loss in lift and the increase in sectional drag forces will have a dramatic effect on vehicle performance. The ability to predict ice accumulation and the resulting degradation in rotor performance is essential to determine the limitations of rotorcraft in icing encounters. The consequences of underestimating performance degradation can be serious and so it is important to produce accurate predictions, particularly for severe icing conditions. The simulation of rotorcraft ice accretion is a challenging multidisciplinary problem that until recently has lagged in development over its counterparts in the fixed wing community. But now, several approaches for the robust coupling of a computational fluid dynamics code, a rotorcraft structural dynamics code and an ice accretion code have been demonstrated.

Original language	English (US)
Journal	SAE Technical Papers
Volume	2015-June
Issue number	June
DOIs	https://doi.org/10.4271/2015-01-2088
State	Published - Jun 15 2015
Event	SAE International Conference on Icing of Aircraft, Engines, and Structures, ICE 2015 - Prague, Czech Republic Duration: Jun 22 2015 → Jun 25 2015

All Science Journal Classification (ASJC) codes

Automotive Engineering
Safety, Risk, Reliability and Quality
Pollution
Industrial and Manufacturing Engineering

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10.4271/2015-01-2088

Cite this

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title = "Progress in Rotorcraft Icing Computational Tool Development",

abstract = "The formation of ice over lifting surfaces can affect aerodynamic performance. In the case of helicopters, this loss in lift and the increase in sectional drag forces will have a dramatic effect on vehicle performance. The ability to predict ice accumulation and the resulting degradation in rotor performance is essential to determine the limitations of rotorcraft in icing encounters. The consequences of underestimating performance degradation can be serious and so it is important to produce accurate predictions, particularly for severe icing conditions. The simulation of rotorcraft ice accretion is a challenging multidisciplinary problem that until recently has lagged in development over its counterparts in the fixed wing community. But now, several approaches for the robust coupling of a computational fluid dynamics code, a rotorcraft structural dynamics code and an ice accretion code have been demonstrated.",

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T1 - Progress in Rotorcraft Icing Computational Tool Development

AU - Kreeger, Richard E.

AU - Sankar, Lakshmi

AU - Narducci, Robert

AU - Kunz, Robert

PY - 2015/6/15

Y1 - 2015/6/15

N2 - The formation of ice over lifting surfaces can affect aerodynamic performance. In the case of helicopters, this loss in lift and the increase in sectional drag forces will have a dramatic effect on vehicle performance. The ability to predict ice accumulation and the resulting degradation in rotor performance is essential to determine the limitations of rotorcraft in icing encounters. The consequences of underestimating performance degradation can be serious and so it is important to produce accurate predictions, particularly for severe icing conditions. The simulation of rotorcraft ice accretion is a challenging multidisciplinary problem that until recently has lagged in development over its counterparts in the fixed wing community. But now, several approaches for the robust coupling of a computational fluid dynamics code, a rotorcraft structural dynamics code and an ice accretion code have been demonstrated.

AB - The formation of ice over lifting surfaces can affect aerodynamic performance. In the case of helicopters, this loss in lift and the increase in sectional drag forces will have a dramatic effect on vehicle performance. The ability to predict ice accumulation and the resulting degradation in rotor performance is essential to determine the limitations of rotorcraft in icing encounters. The consequences of underestimating performance degradation can be serious and so it is important to produce accurate predictions, particularly for severe icing conditions. The simulation of rotorcraft ice accretion is a challenging multidisciplinary problem that until recently has lagged in development over its counterparts in the fixed wing community. But now, several approaches for the robust coupling of a computational fluid dynamics code, a rotorcraft structural dynamics code and an ice accretion code have been demonstrated.

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DO - 10.4271/2015-01-2088

M3 - Conference article

AN - SCOPUS:84959468048

SN - 0148-7191

VL - 2015-June

JO - SAE Technical Papers

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T2 - SAE International Conference on Icing of Aircraft, Engines, and Structures, ICE 2015

Y2 - 22 June 2015 through 25 June 2015

ER -

Progress in Rotorcraft Icing Computational Tool Development

Abstract

All Science Journal Classification (ASJC) codes

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