- Login or Register
No account yet? Sign up
Sorry for the belated response.
) believe it to be factually incorrect.
Because for the diffuser to provide a “low pressure area” it would have to be a pump. That requires added energy. Thus, the blown diffusers emerged. But that’s not what this thread was originally about.hollus wrote:Why can't it be the diffuser, a low pressure area, what is partly accelerating that flow under the car?
The diffuser links the underbody flow to the low pressure regions created by the beam wing, the main rear wing and the rear wheels. The car creates a low pressure zone behind it - that's partly what causes drag. The diffuser uses this low pressure zone to draw air from the underside. It makes the process efficient by easing the velocity change between underfloor and behind-car flows. The car is the pump, not the diffuser per se.vonk wrote:Because for the diffuser to provide a “low pressure area” it would have to be a pump. That requires added energy. Thus, the blown diffusers emerged. But that’s not what this thread was originally about.hollus wrote:Why can't it be the diffuser, a low pressure area, what is partly accelerating that flow under the car?
It will be interesting to see what happens after the new exhaust regulations take effect.
about figure 2: What you stated would be true if the the blue area represented a lower but positive cp, but it actually represents a negative cp, so, no it doesn't represent that area being closer to freestream pressure, the blue represents that it's BELOW freestream pressure.vonk wrote:Sorry for the belated response.
The linked article is well written, presenting in popular terminology what many seem to have accepted as gospel. It sounds plausible, but I (blasphemously
The article claims that the diffuser is a device “creating an area of low pressure”, that “draws the air out from under the car” and that it “literally sucks the car onto the track”. This implies that a diffuser is an active vacuum pump. It is well known that pumping requires work [(pressure difference)x(volume flow rate)]. A passive diffuser, if properly dimensioned, can modify flow conditions according to Bernoulli’s equations. If it is to diffuse accelerated low pressure flow, the acceleration must have occurred first by some other mechanism.
The article suggests wing aerodynamics as the theory behind flow acceleration under the car. An F1 car is hardly a wing. Instead, it uses a horizontal splitter plate to purposely minimize body shape influence on the flow entering under the car.
Discussing Fig 2, the author overlooks the fact that the pressure coefficient represents the pressure difference between the local and free stream pressures. Accordingly, the darkest blue represents the least difference from ambient pressure with everything else being greater. This is not surprising since Fig 2 shows a bell mouth at the far left that creates a ram pressure increase at the inlet to the underside of the car (evidenced by the red lip on the extreme left). To avoid this, F1 cars use a horizontal splitter plate.
I think he's already tried to reject this basic premise of F1 aeroJust_a_fan wrote:The diffuser links the underbody flow to the low pressure regions created by the beam wing, the main rear wing and the rear wheels. The car creates a low pressure zone behind it - that's partly what causes drag. The diffuser uses this low pressure zone to draw air from the underside. It makes the process efficient by easing the velocity change between underfloor and behind-car flows. The car is the pump, not the diffuser per se.vonk wrote:Because for the diffuser to provide a “low pressure area” it would have to be a pump. That requires added energy. Thus, the blown diffusers emerged. But that’s not what this thread was originally about.hollus wrote:Why can't it be the diffuser, a low pressure area, what is partly accelerating that flow under the car?
It will be interesting to see what happens after the new exhaust regulations take effect.
Run any car with a flat bottom and nose-down rake and you'll create downforce. Add a diffuser and you'll make more downforce and less drag. That's what the thing does.
I think the thread title "diffuser confusion" sums up his posts nicely.Pierce89 wrote:I think he's already tried to reject this basic premise of F1 aero
+1slimjim8201 wrote:I think the thread title "diffuser confusion" sums up his posts nicely.Pierce89 wrote:I think he's already tried to reject this basic premise of F1 aero
You are correct and I was wrong, because……Ah, never mind.Pierce89 wrote:about figure 2: What you stated would be true if the the blue area represented a lower but positive cp, but it actually represents a negative cp, so, no it doesn't represent that area being closer to freestream pressure, the blue represents that it's BELOW freestream pressure.
This puts the finger on my problem, which was to assume that the diffuser exit connects to the car’s turbulent wake at ambient static pressure. Instead, I understand you to say it connects to a sub-ambient pressure region.Just_a_fan wrote: The diffuser links the underbody flow to the low pressure regions created by the beam wing, the main rear wing and the rear wheels. The car creates a low pressure zone behind it - that's partly what causes drag. The diffuser uses this low pressure zone to draw air from the underside. It makes the process efficient by easing the velocity change between underfloor and behind-car flows. The car is the pump, not the diffuser per se.
OK, then. I’m willing to learn. How does it work without add-ons? Am I at least correct in that it is not a vacuum pump?mep wrote:Vonk I am affright to say it but it seems you still haven't understood how the diffusor works. The beam wing is not the reason for it. Many cars do have diffusors without having a beam wing. The beam wing is just a add-on.