Formula One's governing body has announced that it has come to a settlement with Scuderia Ferrari after investigations into its 2019 power unit, considered the most powered in F1.
Inter cooling is a textbook way of reducing the power requirement of compressors. Cooling the compressed gas will increase its density (reduce its volume) if pressure is held constant, or reduce its pressure (if volume is held constant).PlatinumZealot wrote:All I am saying is that inter-cooling is text-book way of increasing the efficiency an engine. You just can't argue this because it is fundamental thermodynamics. You are lowering your average heat rejection temperature buy doing this, and you are also reducing the irrevesibilities int he gas on the way to reaching your final peak pressure. It is text-book stuff. That is why the manufacturers go through so much trouble of getting their inter-cooling right.
Detonation is a very inefficient operating mode. Even if you built an engine strong enough to withstand heavy detonation, it would not be efficient. The detonation shock wave destroys the boundary layer at the chamber wall and accelerated heat transfer out of the working fluid and into the metal. This what melts piston lands and destroys engines, but it also wastes a lot of energy.godlameroso wrote:I understand where you're coming from, because you're absolutely right from a conventional engine perspective. These engines are a different beast altogether, the rules force you to think from a different point of view. The limitations of normal engines are of little consequence when you consider the level of sophistication involved with these power units. They run on a completely different wavelength, here the key term is more heat = more power, everything else be damned, it just has to hold together for 4,000km then it can incinerate itself for all they care.
If you think about it, detonation is really the best way to get maximum power, detonation is so powerful that it can send a piston straight through the head, crack the block in half and take the body work with it. Imagine if the engine could harness that power
Is detonation operating mode of diesel engine? if not, what's the difference?gruntguru wrote:Detonation is a very inefficient operating mode. Even if you built an engine strong enough to withstand heavy detonation, it would not be efficient. The detonation shock wave destroys the boundary layer at the chamber wall and accelerated heat transfer out of the working fluid and into the metal. This what melts piston lands and destroys engines, but it also wastes a lot of energy.
I just checked it by using a standard Otto process and one with a isothermal compression instead of the first isentropic compression and gruntguru seems to be correct in the first point.gruntguru wrote:No.PlatinumZealot wrote:Cooling the charge increase efficiency.
There are two compression stages in these engines. The compressor and then the piston. Cooling the charge increases the isentropic efficiency of these components. The teams now that a cooler charge gives more horsepower. It is only a matter of limiting returns.
Read my previous two posts.
1. Aftercooling reduces the work done by a compressor (by moving the operating point to a lower pressure or flow) but it does not improve the isentropic efficiency.
2. These engines have two stages of expansion. Heat removed from the charge is heat energy that is no longer available for expansion and conversion to work (power).
I think people get confused between power and efficiency.PlatinumZealot wrote:All I am saying is that inter-cooling is text-book way of increasing the efficiency an engine. You just can't argue this because it is fundamental thermodynamics. You are lowering your average heat rejection temperature buy doing this, and you are also reducing the irrevesibilities int he gas on the way to reaching your final peak pressure. It is text-book stuff. That is why the manufacturers go through so much trouble of getting their inter-cooling right.
The obvious answer is, that you can "reinvest" your lower temperature in CR. Especially if you are more limited by your combustion temperature, since it is only dependent on you compression end temperature (and of course the added heat and the gas you use). But you also increase the pressure after the compression and combustion, so it is a trade off what limits your performance.PlatinumZealot wrote:His first point is correct - no dispute there.
I know where he is getting at. Removing heat from the intake stream seems counterproductive to improving efficiency doesn't it? I would agree too. But depending on the type of engine and what the engine is used for it makes sense to intercool. I'm at work so I have no material in-front of me.
