Perhaps you could add an image of the drinking water! You seem healthy and positive, so I'm assuming it's clear 🙂

Thank you Ganesh!

Thank you very much Iakshman, I'm smiling when I read this compliment :) Feel free to check out the other aerodynamics videos on our "Aero Theory" playlist: kzbin.info/www/bejne/epOseqpjjNesfrs

Thanks Aldair, I hope you like the other videos we have on the channel!!

Thank you!

Thanks a lot Michal, I'm really glad you liked it!!

Ah brilliant :D That meme has been around for quite some time - glad the video helped!

Thank you very much Michel!! We'll continue to push new videos :)

Yes, aerodynamics definitely matter at those speeds! When cycling at30 kp/h for example, already more than half of the energy is spent on aerodynamics. We did a video on the aerodynamics of a low-speed city vehicle: airshaper.com/videos/smart-mobility-city-vehicle-aerodynamics/video/mp-yl8wwEz0 Having just one front wheel could indeed reduce aerodynamic drag. But it would influence the entire underfloor aerodynamics of the vehicle, so you may need to rethink the bottom floor as well (to cope with the flow coming off the front wheel). Feel free to drop me a line at wouter@airshaper.com if you want to run a simulation on your model (if you have a 3D model already)!

@@AirShaper I don't have 3d model yet , but i appreciate the help :)

i mean it needs alot of flat roof surface because i want to make it all solar powered but that's pretty much all i know so far :D

@@oplkfdhgk Ah, then be sure to check our interview with Lowie Vermeersch on how they helped design the Lightyear One Solar Powered Car: airshaper.com/videos/lowie-vermeersch-2-the-lightyear-one-solar-car/video/TKHjyC_L0OM

thanks

Hi Eddick, thanks a lot for the nice feedback! At the moment, we don't apply prism layer cells and instead we work with wall functions. We're working on it, but as robustness is the number one goal for us, we first need to make sure it can be done properly, even in difficult locations like the wheel-ground interface. Indeed, the ground air is standing still so in theory there is no need for boundary layer cells. What we are thinking of is to just apply them on the part of the ground that is below the car (plus some margin). Because there, you do have a shear stress towards the ground, as the car starts dragging the air along. And around the wheels, you also have a certain 'sphere of influence', so having prism layer cells there would also be good. But getting the mesh and simulation stable is the primary goal, all is slave to that :)

@@AirShaper Thanks for the answer - it is always about the compromise, as in every branch of engineering :) BTW Do you use also SA turbulence model as it was primarly founded for external aero purposes for aerospace industry or you keep focus on KW-SST with wall funcs ?

@@EddickC2D Indeed, always a compromise!! We use the simpleFoam solver with k-omega-SST as a turbulence model with wall functions indeed :)

Thanks Patel!

Thank you! Are AirsShaper, the preparation time is limited as it works with non watertight 3D models, up to 3GB in size and no need to simplify (up to 10.000 components). But generally yes, you're best to clean up the cad, make it closed, prepare the contact patches of the wheels, simplify radiators, ...

Thanks a lot!!

For a car, the characteristic length is typically the length of the car itself. But keep in mind that this is always subjective and doesn't represent a real physical quantity (see our video on Reynolds Number: airshaper.com/videos/the-relation-between-turbulence-reynolds-and-wind-tunnel-testing/sV8l8xd4MEQ). In terms of y+, when using a turbulence model, it is often advised to have y+ between 30 and 100.

@@AirShaper Thanks Airshaper ! This will really help me to proceed further in my simulation . One more thing I would like to know that how do you determine the appropriate size of a virtual wind tunnel ? Is there any rule of thumb to determine the optimum size of VWT ? Since, as the size of a VWT increases , the number of elements in our mesh also increases , which implies longer computational time . And this becomes important particularly for students like me who don't have access to high performance computers . By the way , thanks one again !

​@@hemantpandey9676 increasing the size of the tunnel helps to keep the blockage factor & wall effects to a minimum (see this video: airshaper.com/videos/scale-model-wind-tunnel-testing/qqYiz1eo-F4). As it's a virtual tunnel, the cost of increasing the size is quite low, especially because you can use coarse cells for the outer parts of the tunnel. We typically aim for a blockage factor of 1% at AirShaper. But a VAWT is a very "airy" design, so additionally I would also aim to stay well away from the walls. Perhaps this paper can be interesting: pdf.sciencedirectassets.com/271422/1-s2.0-S0167610518X00063/1-s2.0-S016761051730702X/am.pdf?X-Amz-Security-Token=IQoJb3JpZ2luX2VjEO%2F%2F%2F%2F%2F%2F%2F%2F%2F%2F%2FwEaCXVzLWVhc3QtMSJHMEUCIQCNBx%2B%2FjQmBf6py3uvwDhNo9iXCupLn%2F%2Bcy%2FfYGdjJ64AIgdb7723fv15OvzfBLnkqxXYy6utHTLYjkSrVbd8qDxtEq%2BgMIWBAEGgwwNTkwMDM1NDY4NjUiDGpn6aMOKOJwJGti5CrXA%2FK48kspBMu72CgrT5MhOmJxHjoRWjoR548YEkFnRuqnmRXblAo9S3Ikcd3%2FLlVOg0Ce5AmVxDhu20X0P7f5cdn%2BPfxzBbbIeZWXduzlmowImfgJVWmH%2F32wnl0sW1moeXUnVirggxU1Lu7DkTKGLXasXsYgp2tSQpMdbdoo3qPli%2BfeQMaSOYaQ%2FbUzKllaS%2F0M5vfq8O5PrHpmIzo0KAnlP65wyWD6d4azVqzys0KvYv%2BToS4RZvVvxLtZc73W56wIHtMyQIr5xfEo4NQVO3fPmJBKZF4AbHrRZHpOUHK7BQqyXfpkuRQEx1Ds3rbyQHmvkAUHS7MImGkLnDTcmBQMgokxIMIipdiouCA2LcYUhsiKz6XrcuaBQERKKYDcL4NCKbwhmUraf0m42WazB57k9HvBedSMNK1JpSfMPoMugYgUvi20OtQg7Zq14cHs3P59Ao8KQX5Im9h6h5PtylAO5kIZDc2JF1wq9EQ8F2R3KsRUJcT9e7ASVco5Rt8wG16fBNrs7kMhQko2LHAqs%2FsUVFJrPmgnA%2BoStVAz5L9FSjVWuNqb2XsHagiFw3sXPrXrVKpz4YyxX8xB8g3ja7i9Hg6%2FH6RUZgXHnT%2BWP5UxLmHbH5uCsDDV6YaRBjqlAXiA84cRn5HS%2FX%2BKiFslE4jPO0%2BJSpld%2FxZBe%2FbrBGK4MhCL6XTLqohZaz2NRXC3bZNApAStRjA6x1X22bNTPRfLcZ9ufzenP0Z1LOp6%2FvrQSKY9HHYtL4RCO%2BsQk6HZGCP7LEdX2LvAe3j%2BPAOtg14J1cOo4NnbMTWHy26kSMAMYGtLdAmC1rlNpEOujl%2BGXdsP%2FfVS5uowCyjgol0eYn33CTePiQ%3D%3D&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20220304T074000Z&X-Amz-SignedHeaders=host&X-Amz-Expires=300&X-Amz-Credential=ASIAQ3PHCVTYVY6LGHGJ%2F20220304%2Fus-east-1%2Fs3%2Faws4_request&X-Amz-Signature=6b9f7abd07fd79a3332e6f99f27c9a36dec4fd6b8da851bf25e528c748f59c08&hash=43c5be083dc84b60e55481de3f2c48206a4efe0a6168ce86d3d100303da452c3&host=68042c943591013ac2b2430a89b270f6af2c76d8dfd086a07176afe7c76c2c61&pii=S016761051730702X&tid=pdf-802dc23c-e5b6-4a9d-93a8-c37c6d7cfc10&sid=9acaff934353b74e3368f5a46ff93a4f80cbgxrqb&type=client

@@AirShaper Yeah.. I got it . Thanks AirShaper !

Thank you!

By wake I mean the volume of air which is being dragged along. Does that make sense?

@@AirShaper let me put it this way if its right, the volume of air that has been effected by the car at a moment of time

@@ahmetkirhan5896 a lot of the air around the car is affected, but the wake is that part where air is being dragged forward (opposed to the rest of the air passing without too much change in momentum)

@@AirShaper oh okay, Sir. Thank you so much for the explanation :)

Thanks Azad!

Thanks for the suggestion Aldair!

Hi Raffaele, I recommend reading this article by Willem Toet: www.racetechmag.com/2019/02/willem-toet-explains-cfd-post-processing-part-2/ Indeed, the total pressure is a measure for the energy in the airflow. Keep in mind that the Bernoulli equation is only valid for inviscid flows. In real flows, energy gets lost in the wake for example (as you said), leading to a drop in total pressure (and thus less energy). And loss of energy is a source of aerodynamic drag. So perhaps the volume enclosed by the total pressure below 0 isn't an exact representation of the wake, but rather a representation of energy loss / drag sources. If you want to exactly see the wake, defined as 'the air you drag along in the flow direction', then perhaps you can make an isosurface for the X-component of the velocity equal to perhaps to zero (assuming your object is standing still and the wind flows across the object). That should also be interesting! (We did it before, interesting stuff :) )

Hi Zelda, yeah you can send the images and a description of the project to info@airshaper.com and I'll have a look!

Thanks a lot!! Feel free to also create a free account at app.airshaper.com and check out some sample projects

Hi Nenad, we use an acoustic analogy (based on Lighthill / Proudman): www.afs.enea.it/project/neptunius/docs/fluent/html/th/node237.htm Hope it helps!

Thank you.

Hi Jay, Abaqus and Ansys are definitely good packages. We use OpenFOAM, which is a well-known & validated open-source environment for CFD simulations.

@@AirShaper thank you I will try it, looks amazing. And I have a question, did you engineered the vents of the car in this video? Like by applying formulas of Fluid dynamics or you simply designed it for sort of fun without getting into FD and engineering side. Just curious coz simulation was amazing.

@@JayTheMachine Hi Jay, I designed those channels to generate lateral forces. I actually didn't know CFD when I did that, but it's the reason I got into it later on. You can read more about it on this page: www.airshaper.com/cases/aquilo-patented-aerodynamic-concept-car

Hi Henrique, we used a k-omega SST turbulence model to run a steady state simulation. We didn't apply prism layers and used wall functions instead. I don't have info on the Y+ values (they vary across the surface), but you can check this sample project and then download the sample data and check it yourself if you like: app.airshaper.com/projects/sample/sports-car We use hexa cells for the "main" mesh as this limits some of the discretization errors, and close to the surface, the mesh is cut & snapped to the surface (we use snappyHexMesh). Hope that answers your questions!

Hello Wouter, thank you for the answers! The presentation is great too! Best regards

@@miro1miro You're most welcome!

That sounds cool indeed, just let me know when you have that 3D model, then we can help out!

That sounds realistic! Depends on loading, position, size, ... of the rack, but this could perhaps increase drag by 10%, which would increase fuel consumption by 5-7% depending on the driving speed. That could indeed translate into a 3-5mpg difference. You can do a top speed test with and without the rack on a track. With some calculations, you can then estimate the drag difference!

@@AirShaper Thanks so much!

Hope you earned something 🙂

@@AirShaper I have learned quite a bit from your channel. (I earned a dollar from winning the bet) However at the moment I am building small fixed wing drones from scratch. Attempting to maximize efficiency and flight characteristics using Vehicle Sketch Pad (VSP). Hopefully someday I'll have the resources available to use AirShaper during design!

Hello Paul, we work with OpenFOAM at AirShaper. I don't know how to do that in Fluent.

@@AirShaper Ok thank you for your reply

@@AirShaper Is rear diffuser an integral part of all car?

@@paulstephen7225 It's often a stand-aline part that is added to the car. But in terms of design & aerodynamics, it indeed interacts with many other aspects of the car.

We use a highly modified OpenFOAM environment. If you want to learn OpenFOAM, feel free to check out our old course material at www.airshaper.com/courses Good luck!

Hi Pablo, do you lean the small flaps, or air deflectors, just ahead of the tires? If yes, then indeed, on their own they create extra drag. But they create a wake that shields the tires, reducibg the drag on those. If the reduction in drag on the tires is higher than the extra drag on the deflectors then the nett result is lower drag.

As @AirShaper stated, in the automotive sector (expecially motorsport) it's always a trade off, for example in F1 they use a big vortex line y=250 to shield the undertray

@@AirShaper @Giuseppe Torre I was indeed talking about the deflectors ahead of the tires. Thanks for your reply! Makes sense.

We don't do CAD modeling but feel free to contact us at info@airshaper.com if you have more questions!

The max pressure (relative to the environment pressure) is usually the stagnation pressure, i.e. 0.5*density*velocity^2

​@@AirShaper okay, just read up it's way more pressure than I thought. Am new to the subject, so thanks for explaining.

The surface pressure doesn't need to be low everywhere to have low drag. It's the 'nett' pressure sum across the entire surface that determines the total drag. That means you can still have some pressure increase at the front qs long as you 'recover' that pressure at the back (which requires nicely attached flow, no separation). Even the most streamlined shapes have a stagnation point somewhere at the leading edge.

So if an Object has an attached and laminar air flow around it with almost no turbulence, it has a low drag coefficient ?

On average, yes. But it depends on Reynolds number, fluid properties, and so on!

@@AirShaper Thank you for the explanation !

The choice for 50 m/s was completely arbitrary for this simulation. Typically, you would select either the top speed (when optimizing for top speed), the average speed around a track (when optimizing for lap times) or the average driving speed across for example the WLTP (when optimizing for vehicle emissions).

Cp = 0 does not mean there is no pressure - this is the total pressure in a simulation where the atmospheric pressure is not included (so the "reference pressure" is zero). Cp = 0 is an interesting iso-surface, as it shows the 3D volumes inside which you are loosing energy (because total pressure in a way represents this).

Good comment! Yes, that would have been possible here. But it is not exactly the same as a full model (you eliminate lateral glow oscillations) and when we open/close internal channels asymmetrically, we'd need a full model again and we'd be comparing different meshes.

Hi Mohamed, thanks a lot! It's a hex dominant mesh with non-hexagonal cells close to the surface. We use snappyHexMesh (the mesher provided in OpenFOAM).

@@AirShaper but why non hexagonal cells close to surface specifically? I would suggest if you can make a video on meshing best practices for aerodynamics simulations Thanks again for your help

@@mohamedabdelmaksod660 snappyHexMesh cuts them around the surface and then snaps the "remaining" parts to the surface. More info here: cfd.direct/openfoam/user-guide/v6-snappyhexmesh/ As we have automated the meshing at AirShaper, we don't provide options for custom meshing. But we do have a video on how to "chose" between different mesh resolutions - I hope that one is at least partially useful for you: airshaper.com/videos/choosing-your-simulation-accuracy-vs-speed-vs-cost/video/Evxpkwjb5dQ

For pressure we often use the stagnation pressure as a limit for the scale (0.5 * rho * v²). But in general, it depends greatly on which aspect you want to analyze (lift, drag, efficiency, ...). Perhaps you can check our videos on drone design as well: i.ytimg.com/an_webp/kAXN3MlQxxc/mqdefault_6s.webp?du=3000&sqp=CPqs6JMG&rs=AOn4CLDSLfaEPxCTY5Tr-p7LRdZMqdpuig kzbin.info/www/bejne/fIuripanh8h3gK8

Not in this simulation if I remember correctly, but we do have that functionality (both tangential velocity and MRF). Are you looking to run such a simulation?

@@AirShaper we have mesh issues to fix first but ultimately yes

@@sebastienricciardi883 Hi Sebastien, ok cool I'm curious to see the model! Keep in mind that AirShaper can work directly with open surface models (non-watertight geometry). So if you're referring to that issue, there is no need to prepare models for AirShaper. Just drop me an email at wouter@airshaper.com if you need more info!

Thanks a lot!!

Hi Cesar, thanks for the compliment! We use the Lighthill acoustic analogy - it's a public formula you can apply yourself!

@@AirShaper Thank you very much. I am beginning on noise modeling for industrial flows this far I was know that just LES or DES are used to middling but I was not aware of those analogies that may fit better in terms of simulation time. Thank very much.

You're welcome Cesar. Keep in mind that this analogy is a simplifief approach which won't provide frequency information or perceived noise at a certain location. But it's very good as a first assessment on the location of noise sources. Good luck!

Hi Nesmio, do you mean it's better in this video (me talking while showing stuff) or better of I stand in front to explain stuff? Thx for the honest feedback!

@@AirShaper It is better in this video when you are just free flowing and being natural instead of in my personal opinion the super forced in-front of camera presentations.

@@nesmio7378 Thanks Nesmio, I do need to practice & record multiple times for the in-front camera presentations :)

@@AirShaper No problem, I love your videos and presentations with the information in them, they are just a bit awkward to watch a lot of the time, this though was perfect! Keep it up.