But it isn't going to be short - the exhaust has to be behind the rear axle line.flynfrog wrote:as big and as short as possible
The answer is as simple as it is correct. You want to achieve the lowest possible pressure at the exit of the exhaust turbine in order to maximize the pressure differential over the turbine. The turbine entry pressure is dependent of the operating conditions of your ICE and the turbine design. The turbine exit pressure is dependent of the pressure loss in your exhaust pipe and the local pressure behind the exhaust pipe exit. So there are three things you want to do:wuzak wrote:But it isn't going to be short - the exhaust has to be behind the rear axle line.flynfrog wrote:as big and as short as possible
I assume you mean as big a diameter as possible? The regulations specify a circular cross section, at least at the outlet.WhiteBlue wrote:
- make the pipe as wide as feasible to reduce aerodynamic friction
I was wrong earlier. The exhaust outlet is forward of the rear wheel centreline - by between 30mm and 50mm.WhiteBlue wrote:
- make the tube straight and as short as possible again to reduce aerodynamic friction
The bodywork regulations make that difficult. However, the exhaust can be angled 10° from the car centreline, and from 0 to 10° up at the rear. These angles could help to make a low pressure area at the outlet (airflow will try to suck air out of the pipe).WhiteBlue wrote:
- release the exhaust at the pipe exit preferably into a low pressure field (if available)
Max diameter for a single pipe is 133.5mm.ringo wrote:The exhaust must be a diffuser; with a highly polished inner surface. The diffuser muss be frilled as well.
And even if bodywork cannot be behind the pipe, some upstream tricks can be used to lower the pressure.
The turbine needs lowest pressure at blades exit, which is achieved by a diffuser.
So for example if your turbine orifice is 3 inches, you need maybe a pipe diverging to maybe 5 inches. I'm not sure of the max allowed diameter.
seems they were. So are we saying a slightly expanding cone from the turbo outlet to the regulated exit area.Wideband mindeD wrote:but would like to discuss this area of the new regs.
Can't. No bodywork will be near enought to achieve that.Wideband mindeD wrote:If there are the allowances of 2 pipes on exit, we may still see a coanda exhaust setup.
I thought you are only allowed one exit. Where did the second suddenly come from?wuzak wrote:Can't. No bodywork will be near enought to achieve that.Wideband mindeD wrote:If there are the allowances of 2 pipes on exit, we may still see a coanda exhaust setup.
From the rules:WhiteBlue wrote:I thought you are only allowed one exit. Where did the second suddenly come from?wuzak wrote:Can't. No bodywork will be near enought to achieve that.Wideband mindeD wrote:If there are the allowances of 2 pipes on exit, we may still see a coanda exhaust setup.
Another interesting one:5.8.2 Engine exhaust systems may incorporate no more than two exits, both of which must be rearward facing tailpipes, through which all exhaust gases must pass.
So there can be no air taken from the compressor to do diffuser blowing or double DRS-ing.5.8.1 With the exception of incidental leakage through joints (either into or out of the system), all (and only) the fluids entering the compressor inlet must exit from the engine exhaust system.
Oops, so I have an old copy here.Holm86 wrote:Please read the updated regulations, they say :
"5.8.2 Engine exhaust systems must have only a single tailpipe exit which must be rearward facing and through which all exhaust gases must pass."
