Abstract
In this article the procedure and method for the ice accretion prediction for different airfoils using artificial neural networks (ANNs) are discussed. A dataset for the neural network is based on the numerical experiment results—obtained through iceFoam solver—with four airfoils (NACA0012, General Aviation, Business Jet, and Commercial Transport). Input data for neural networks include airfoil and ice geometries, transformed into a set of parameters using a parabolic coordinate system and Fourier series expansion. Besides input features include physical parameters of flow (velocity, temperature, droplets diameter, liquid water content, time of ice accretion) and angle of attack. The novelty of this work is in that the neural network dataset includes various airfoils and the data augmentation technique being a combination of all time slices. Several artificial neural networks (ANNs), fully connected networks (FCNNs), and convolutional networks (CNNs) were trained to predict airfoil ice shapes. Two different loss functions were considered. In order to improve performance of models, batch normalization and dropout layers were used. The most accurate results of ice shape prediction were obtained using CNN and FCNN that applied batch normalization and dropout layers to output neurons of each layer.
Highlights
Published: 12 February 2022The study of the ice accretion is an important process for different aspects of people’s life, management of technical transportation and energy devices such as aircraft, helicopters, Unmanned Aircraft Systems, wind turbines, and power electrical lines.The mass of accreting ice can reach critical values and become the reason for the various technical problems or disasters.Ice accretion on aircraft wing and helicopter rotor blades impairs aerodynamic performance thereof, which can lead to an aircraft crash
The final dataset includes the ice thickness which was represented by two coordinates x, y, time steps, and 6 physical parameters which determined the condition of ice accretion
The iceFoam solver has been developed as part of the OpenFOAM package to simulate the process of airfoil icing
Summary
Published: 12 February 2022The study of the ice accretion is an important process for different aspects of people’s life, management of technical transportation and energy devices such as aircraft, helicopters, Unmanned Aircraft Systems, wind turbines, and power electrical lines.The mass of accreting ice can reach critical values and become the reason for the various technical problems or disasters.Ice accretion on aircraft wing and helicopter rotor blades impairs aerodynamic performance thereof, which can lead to an aircraft crash. The study of the ice accretion is an important process for different aspects of people’s life, management of technical transportation and energy devices such as aircraft, helicopters, Unmanned Aircraft Systems, wind turbines, and power electrical lines. The mass of accreting ice can reach critical values and become the reason for the various technical problems or disasters. Ice accretion on aircraft wing and helicopter rotor blades impairs aerodynamic performance thereof, which can lead to an aircraft crash. A detailed analysis of different aircraft crashes was presented in [1]. One of the recent aircraft accidents due to icing in Russia is the case of An-148 aircraft of Russian Saratov Airlines, which was flying from Moscow to. The Interstate Aviation Committee noted that the problems could have been caused by icing of sensors of total pressure probes that measure the aircraft velocity [2]
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