Computational Modeling of Frost Thickness on a Flat Plate Surface Considering Growth Rate with Regression Method and its Validation-Reference-Cited by-同舟云学术

Computational Modeling of Frost Thickness on a Flat Plate Surface Considering Growth Rate with Regression Method and its Validation

Published:2022-05-23 Issue:5 Volume:23 Page:823-833
ISSN:2093-274X
Container-title:International Journal of Aeronautical and Space Sciences
language:en
Short-container-title:Int. J. Aeronaut. Space Sci.

Author:

Park Soomin^ORCID,Kihara Hisashi,Abe Ken-ichi^ORCID

Publisher

Springer Science and Business Media LLC

Subject

Electrical and Electronic Engineering,Aerospace Engineering,General Materials Science,Control and Systems Engineering

Link

https://link.springer.com/content/pdf/10.1007/s42405-022-00464-5.pdf

Reference36 articles.

1. Bragg MB, Heinrich DC, Valarezo WO, McChee RJ (1994) Effect of underwing frost on a transport aircraft airfoil at flight reynolds number. J Aircr 31(6):1372–1379

2. Dietenberger MA (1983) A Model for Nocturnal Frost Formation on a Wing Section, NASA Contract. Rep. NASA-CR-3733

3. Langston PAS (1968) Hoar Frost on Aircraft Surfaces, BEA-Engineering, British Airways, TN P/570, 254 Heathrow Airport, England, UK

4. Ljungstroem BLG (1972) Wind Turnnel Investigation of Simulated Hoar Frost on a 2 Dimensional Wing 256 Section with and Without High Lift Devices, The Aeronautical Research Institute of Sweden, FFA-257 Au-902, no. 32, pp 2–7

5. Brumby RE (1979) Wing Surface Roughness Cause and Effect, D.C. Flight Approach, McDonnel 259 Douglas Aerospace, no. 32, pp 2–7

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1. Prediction and Evaluation of Frosting Surface on Cylindrical Structure Using Growth Rate Model;International Journal of Aeronautical and Space Sciences;2023-01-12

2. Correction to: Computational Modeling of Frost Thickness on a Flat Plate Surface Considering Growth Rate with Regression Method and its Validation;International Journal of Aeronautical and Space Sciences;2022-07-29