Validity of the Drag Force acting on a Wing

ChaldExals · September 20, 2022, 15:01

Hi Everyone,

I ran a CFD analysis on NACA 0006 wing at 0 angle of attack. The root length,tip length and span of the wing is 10cm,8cm,10cm respectively.The freestream velocity is 300 m/s and pressure is 1 atm (sea level conditions). When the analysis is completed the drag acting on the wing is 5N which corresponds to a drag coefficient of 0,005. I am new to CFD but this number seemed so small. Can this be correct? For further information: in the mesh part, I have a minimum orthogonal quality of 0.0138,maximum skewness of 0.95 and maximum aspect ratio of 792 (I checked orthogonal quality and aspect ratio from Fluent). The first layer thickness is 2.5e-6m. I have 15 number of layers with a growth rate of 1.2. In the setup part I converted the mesh to polyhedral mesh. I used density-based solver,ideal gas model and SST k-w turbulence model for air. I also share the mesh and mach number contour I get. Thank you in advance.

LuckyTran · September 21, 2022, 03:01

I'm trying a bunch of different combinations like 5*2/300^2/.01^2 ~ 1, how do you get 0.0005?

ChaldExals · September 21, 2022, 05:36

I obtained the surface area from 3D CAD software. So my calculation is : (5*2)/(1.2*0.01838257*300^2) ~ 0.005

LuckyTran · September 21, 2022, 11:54

Your projected frontal area should be (10 cm * 6%*10 cm) and your planform area (10 cm x 10 cm). Your reference area is going to be one of those or close to one of those and you need to use the drag coefficient corresponding to either definition. If you use the planform area then you get really small values for Cd. Drag coefficient normally uses the frontal area but sometimes the planform area is used in order to keep the same area as the lift coefficient.

ChaldExals · September 21, 2022, 12:04

Oh I get it. But still isnt this force very small for such an high velocity?

September 21, 2022, 05:36		#3
ChaldExals New Member HS Join Date: Sep 2022 Posts: 9 Rep Power: 3	I obtained the surface area from 3D CAD software. So my calculation is : (52)/(1.20.01838257300^2) ~ 0.005 Last edited by ChaldExals; September 21, 2022 at 06:57.*

Similar Threads
Thread	Thread Starter	Forum	Replies	Last Post
Extracting Drag Force	mishblair	FLUENT	0	July 24, 2019 09:56
FLUENT: how to record drag force at every time step?	qiulan	FLUENT	4	March 20, 2017 21:22
Determination of the induced Drag for a rectangular wing	matmax-168	CFX	3	April 12, 2015 07:46
Regarding modified drag force formulation for application in dense flows	ansubru	OpenFOAM Programming & Development	15	September 14, 2014 09:04
Isolating wing induced drag component	siw	CFX	2	June 22, 2010 10:21

September 21, 2022, 03:01		#2
LuckyTran Senior Member Lucky Join Date: Apr 2011 Location: Orlando, FL USA Posts: 5,668 Rep Power: 65	I'm trying a bunch of different combinations like 5*2/300^2/.01^2 ~ 1, how do you get 0.0005?

September 21, 2022, 11:54		#4
LuckyTran Senior Member Lucky Join Date: Apr 2011 Location: Orlando, FL USA Posts: 5,668 Rep Power: 65	Your projected frontal area should be (10 cm * 6%*10 cm) and your planform area (10 cm x 10 cm). Your reference area is going to be one of those or close to one of those and you need to use the drag coefficient corresponding to either definition. If you use the planform area then you get really small values for Cd. Drag coefficient normally uses the frontal area but sometimes the planform area is used in order to keep the same area as the lift coefficient.

September 21, 2022, 12:04		#5
ChaldExals New Member HS Join Date: Sep 2022 Posts: 9 Rep Power: 3	Oh I get it. But still isnt this force very small for such an high velocity?