CFD-FASTRAN

CFD-FASTRAN is a commercial Computational Fluid Dynamics (CFD) software package developed by Applied Materials for aerodynamic and aerothermodynamic applications. ^[1]

CFD-FASTRAN was used by the Council for Scientific and Industrial Research in South Africa to simulate the release of a missile from the outboard pylon of the BAE Hawk Mk120 at transonic speeds where shockwaves dominate the flowfield. The software was used to calculate the carriage loads, which are structural dynamic responses from the ejection forces, and model the loads on the missile in free-flight.^[2]

The software was used to predict supercooled droplet impingement on helicopter blades by the Institute for Aerospace Research. This is progress towards simulating ice formation on rotating helicopter blades.^[3]

CFD-FASTRAN was used to study the aerodynamic performance of a hypersonic vehicle powered by scramjet engines. Flow conditions were simulated at various angles of attack at Mach 5.85.^[4]

Two-dimensional numerical flow simulations were performed with CFD-FASTRAN to compare the effects of a combined jet flap and Coanda jet on a supercritical airfoil. The results showed that the combined jet flap provided the best performance.^[5]

CFD-FASTRAN was used to simulate flow past helicopter rotors in hover and forward flight conditions. The predictions matched the experimental data.^[6]

References[edit]

^ "CFD - CFD support and info - UTS: FEIT Student Intranet". my.feit.uts.edu.au. Retrieved 2023-10-26.
^ K. Jamison, R. Heise, “Evaluating the Release of a Large Store from the BAE Hawk MK120,” International Aerospace Symposium of South Africa, Gordons Bay, 23–25 November 2010.
^ Krzysztof Szilder, Hongyi Xu, “Prediction of Supercooled Droplet Impingement on Helicopter Rotor Blades,” 26th International Conference of the Aeronautical Sciences, ICAS 2008.
^ Liang Jin, Xian Yu Wu, Jing Lei, Li Yan, Wei Huang, Jun Liu, “CFD Analysis of a Hypersonic Vehicle Powered by Triple-Module Scramjets,” Applied Mechanics and Materials, Volume 390, Pages 71-75, August 2013.
^ M. Mamou, M. Khalid, “Steady and unsteady flow simulation of a combined jet flap and Coanda jet effects on a 2D airfoil aerodynamic performance,” Colloque International sur les Energies Renouvelables CER '2007 Oujda, 4 to 5 May 2007, Oujda, Morocco.
^ M. Mamou, M. Khalid, “Time-Accurate Flow Simulations Past Helicopter Rotors in Hover and Forward Flight Conditions Using Chimera Grid Technique,” Canadian Aeronautics and Space Journal, 2006, 52(4): 135-148, 10.5589/q06-016.

This article about physics software is a stub. You can help Wikipedia by expanding it.

[1] "CFD - CFD support and info - UTS: FEIT Student Intranet". my.feit.uts.edu.au. Retrieved 2023-10-26.

[2] K. Jamison, R. Heise, “Evaluating the Release of a Large Store from the BAE Hawk MK120,” International Aerospace Symposium of South Africa, Gordons Bay, 23–25 November 2010.

[3] Krzysztof Szilder, Hongyi Xu, “Prediction of Supercooled Droplet Impingement on Helicopter Rotor Blades,” 26th International Conference of the Aeronautical Sciences, ICAS 2008.

[4] Liang Jin, Xian Yu Wu, Jing Lei, Li Yan, Wei Huang, Jun Liu, “CFD Analysis of a Hypersonic Vehicle Powered by Triple-Module Scramjets,” Applied Mechanics and Materials, Volume 390, Pages 71-75, August 2013.

[5] M. Mamou, M. Khalid, “Steady and unsteady flow simulation of a combined jet flap and Coanda jet effects on a 2D airfoil aerodynamic performance,” Colloque International sur les Energies Renouvelables CER '2007 Oujda, 4 to 5 May 2007, Oujda, Morocco.

[6] M. Mamou, M. Khalid, “Time-Accurate Flow Simulations Past Helicopter Rotors in Hover and Forward Flight Conditions Using Chimera Grid Technique,” Canadian Aeronautics and Space Journal, 2006, 52(4): 135-148, 10.5589/q06-016.

[1]

[2]

[3]

[4]

[5]

[6]