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I can only tell you what I have read. The book says the spray pattern of a hollow cone is essential to the combustion method. It means that the shape of the cone and the particle size must remain fairly constant to work properly. Late compression injection is necessary for the localized fuel air mix not to lean out and distribute which would occur over a longer compression period. The fuel must also be prevented to penetrate deeper than 15-20 mm in order to not hit the piston. Fuel in wall contact does not evaporate properly and results in insufficient combustion.ringo wrote:Why restrict to 10 degrees? Or a multiple event for that matter?
So 10/360 revolution / 10000rpm = 0.00017 seconds. I follow that.WhiteBlue wrote:
The German book that I quoted says that only spray guided combustion with outward opening nozzles will deliver the highest fuel savings.
It also says that all fuel injection for this method must occur between 20-10° crank shaft angle before the upper piston position in the compression phase. It says that only multiple injections allow the use of stratified charges for higher loads.
The best equipment mentioned are directly piezo operated injectors which are said to have only 30-50 micrometer of needle stroke but should theoretically have a stroke of only 7 micrometers for best performance and compact injector design.
It is also mentioned that 50-120 bar injection is typical for older combustion methods with spin nozzles and non spray guided combustion. The higher 200 bar systems are typical for outward opening piezo driven injectors and spray guided combustion.
I have figured that the 10° crank angle window for injection @ 10,000 rpm means that the time for all injection to take place is 0,00017 s. If the piezo injector can deliver 0.0002 s a multiple event is not possible and the potential for faster engine speeds is not there.
It indicates that indeed Ferrari are the leading manufacturer and that they are doing better than Porsche.
So this is the killer. It seems that the second shot is after initial combustion.It is also possible to inject more than once during a single cycle. After the first fuel charge has been ignited, it is possible to add fuel as the piston descends. The benefits are more power and economy, but certain octane fuels have been seen to cause exhaust valve erosion. For this reason, most companies have ceased to use the Fuel Stratified Injection (FSI) operation during normal running.
Spray guided combustion is relying on the 20-10° window. It achieves 15-20% better fuel efficiency compared to port based injection. Apparently you can run wall based and air based combustion and incur considerable efficiency penalties. In the extreme case of wall based combustion the improvement against port based injection can be just 5%. So wall based is really the worst. It injects the fuel on the piston and injects at an 80-65° window in the compression stroke.ringo wrote:This 10 to 20 degree event, this is for ultra lean burning correct?
But for normal and high load conditions, injection may begin sometime earlier, on the intake stroke maybe, to maximize the amount of fuel you can get in the cylinder in a limited time. Normal and high load running have more time afforded for injection that for lean running.
Especially for turbocharged performance engines, with high air content and maximum amount of fuel is required, we may only see the late injection occurring when the driver needs to save fuel.
source: http://www.leisure-marine.com.au/Evinrude/article6.aspA comparison of the basic specifications showing the new E-TEC injector with the existing DI injector, serves to highlight why this new design is so superior. The existing DI injector is capable of about 45hp per cylinder - more than we need for all current outboards, but not by very much. The existing DI injector is capable of 7500rpm, again more than we currently need, but not by much. The E-TEC injectors can beat these figures easily and inject all the fuel required in half the time. 0.0025 seconds is about one quarter of a revolution (90 degrees) at 5000remp. The E-TEC injector can also exceed 600psi ensuring very good atomisation of the fuel.
I would guess that burning up the exhaust valves has more to do with injecting too much too late and not fully burning in the cylinder. A higher octane fuel burns slower so they may have not compensated for that.n smikle wrote: Wikipedia again
It is also possible to inject more than once during a single cycle. After the first fuel charge has been ignited, it is possible to add fuel as the piston descends. The benefits are more power and economy, but certain octane fuels have been seen to cause exhaust valve erosion. For this reason, most companies have ceased to use the Fuel Stratified Injection (FSI) operation during normal running.
Well, sort of. It indicated that Ferrari are buying better components than Porsche and are being more ambitious, but in F1 you can bet everyone will be trying to get their injectors from within one or two companies and the playing field will be leveled quickly.WhiteBlue wrote:It indicates that indeed Ferrari are the leading manufacturer and that they are doing better than Porsche.
I agree that this is indeed what we are probably going to see if the reported fuel limiting policies are going to apply. It is the rational consequence.tok-tokkie wrote:7. The challenge under the new rules is maximum fuel efficiency so as little of the issued energy is wasted.
8. Maximum efficiency in fact makes lower revs much more desirable as the friction forces and inertia reversal forces are reduced.
The type of efficiencies we are running with for spray guided injection, is severly lean running. When i mean severe i mean this:madtown77 wrote:I would guess that burning up the exhaust valves has more to do with injecting too much too late and not fully burning in the cylinder. A higher octane fuel burns slower so they may have not compensated for that.n smikle wrote: Wikipedia again
It is also possible to inject more than once during a single cycle. After the first fuel charge has been ignited, it is possible to add fuel as the piston descends. The benefits are more power and economy, but certain octane fuels have been seen to cause exhaust valve erosion. For this reason, most companies have ceased to use the Fuel Stratified Injection (FSI) operation during normal running.
Spray guided is most efficient due to the ability to run at lean conditions. For spray guided I would think you will be RPM limited not only based on the injector specifications, but also on getting the spray near the spark plug with the intense amount of turbulence that occurs within the cylinder at that kind of piston speed, let alone doing it multiple times per stroke.
This ultra lean setting surely cannot be used for full power running. The fuel has a limited amount of energy per Kg. Not only that but lean running produces more NOx emmissions, unless a catalyst is used. F1 do not use catalyst on their exhaust.* Ultra lean burn mode is used for light-load running conditions, at constant or reducing road speeds, where no acceleration is required. The fuel is not injected at the intake stroke but rather at the latter stages of the compression stroke, so that the small amount of air-fuel mixture is optimally placed near the spark plug. This stratified charge is surrounded mostly by air which keeps the fuel and the flame away from the cylinder walls for lowest emissions and heat losses. The combustion takes place in a toroidal (donut-shaped) cavity on the piston's surface.The cavity is displaced to one side of the piston, the side that has the fuel injector. This technique enables the use of ultra-lean mixtures impossible with carburetors or conventional fuel injection.
* Stoichiometric mode is used for moderate load conditions. Fuel is injected during the intake stroke, creating a homogenous fuel-air mixture in the cylinder. From the stoichiometric ratio, an optimum burn results in a clean exhaust emission, further cleaned by the catalytic converter.
* Full power mode is used for rapid acceleration and heavy loads (as when climbing a hill). The air-fuel mixture is homogenous and the ratio is slightly richer than stoichiometric, which helps prevent knock (pinging). The fuel is injected during the intake stroke.
I reckon that you would be able to run at 18,000 rpm with spray guided combustion but that it would compromise your efficiency. You would simply have to start already at much bigger angles like 40° or 35° and some of your earlier injected fuel would splash against the piston and would be carried to cylinder locations where you are not wanting it. So you would be working with much lower AFRs and would be loosing much of the benefits of direct injection.madtown77 wrote:Spray guided is most efficient due to the ability to run at lean conditions. For spray guided I would think you will be RPM limited not only based on the injector specifications, but also on getting the spray near the spark plug with the intense amount of turbulence that occurs within the cylinder at that kind of piston speed, let alone doing it multiple times per stroke.
This is very interesting, when it's close to what I work with irl, powerloss on an oilfilm, everything else equal, goes with the square of speed. Reason for that is shear-force on said film increases lineraly with speed, while power is force times speed. Pretty much like aerodynamic resistance in other words.tok-tokkie wrote:I think you guys are barking up the wrong tree when looking at the maximum revs the engine will be capable of with GDI.
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8. Maximum efficiency in fact makes lower revs much more desirable as the friction forces and inertia reversal forces are reduced.
