Aerofoil lift and drag calculation
Autor: | Niko Tatomir |
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Přispěvatelé: | Šavar, Mario |
Jazyk: | chorvatština |
Rok vydání: | 2015 |
Předmět: |
k-ω SST model turbulencije
URANS aeroprofil aero profil turbulence turbulencija koeficijent otpora finite volume method eksperimentalna mjerenja metoda konačnih volumena coefficient of drag k-kl-ω model turbulencije aerodinamika TEHNIČKE ZNANOSTI. Strojarstvo PISO/SIMPLE algoritam koeficijent uzgona k-ω SST turbulence model TECHNICAL SCIENCES. Mechanical Engineering airfoil PISO/SIMPLE algorithm coefficient of lift aerodynamics k-kl-ω turbulence model experimental results |
Popis: | U ovkviru ovog završnog rada je izvršena numerička simulacija turbulentnog strujanja (Re=2e5) oko NLF(1) – 0115 aeroprofila pomoću k-kl-ω modela turbulencije pri napadnim kutovima 0°, 5° i 10°. Pri tim napadnim kutovima su izračunati koeficijenti otpora i uzgona koji su uspoređeni sa rezultatima dobivenim XFOIL kodom. Valjanost k-kl-ω modela turbulencije je ispitana na sljedeći način: 1. Koeficijent otpora cilindra pri Re=1e5 se izračunao numeričkom simulacijom pomoću k-kl-ω modela turbulencije. 2. Koeficijent otpora dobiven k-kl-ω modelom se usporedio sa koeficijentima otpora dobivenim eksperimentalnim mjerenjima i k-ω SST modelom turbulencije. The aim of this bachelor thesis was to model turbulent flow (Re=2e5) around the NLF(1) – 0115 airfoil with the help of the k-kl-ω turbulence model. Numerical simulations were done at three angles of attack: 0°, 5° and 10°. The coefficient of drag and lift was calculted at the mentioned angles of attack and compared to the results calculated using the XFOIL code. The accuracy of the k-kl-ω turbulence model was analysed in the following way: 1. The drag coefficient of a cylinder at Re=1e5 was calculated with the help of the k-kl-ω turbulence model. 2. The calculated drag coefficient was then compared to those obtained experimentally and by numerical simulations using the k-ω SST turbulence model. |
Databáze: | OpenAIRE |
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