TMc":wikah7t3 said:
I have also seen a crankcase circulation and vacum system so tight, that when you took off the oil fill cap (or even pulled the dipstick tube) while the car was running it immediately died (vacum leak). See BMW and efficiency.
Every modern car that I have examined has had a pcv inlet in the fresh air intake stream, after the air filter. This accomplishes the same task that the filtered breather cap accomplishes, as well as the later system of having a tube from the breather run to the underside of the air cleaner, inside of the ring of the filter element. Each of these systems ensure that filtered air is drawn into the crankcase by the manifold vacuum which is regulated by the PCV valve. The filtration is important because the fresh air the vent system wants to inhale is likely to have dust in it that will contaminate the oil. Of course the cleaner the inside of an engine is, the better and longer it will run (other factors aside).
With regard to the "tight" vent system employed in BMWs: I'm pretty sure that the stalling when removing the oil cap is not caused by the PCV system. Every BMW I've looked at and paid any attention to has used a mass airflow meter to regulate mixture. These meters are always in the intake airflow after the air filter (usually immediately after) and before the throttle plate. Any leak in the airflow AFTER the mass airflow meter results in a miscalculation of the volume of air entering the engine (because air is entering the engine that is not flowing through the meter) and subsequently a failure to run properly, which usually manifests itself as a stall. This can be caused by a loose air intake hose clamp, for example. Now, if the pcv system uses the filtered intake airstream as its fresh air inlet point, as it almost certainly does, that means that by opening the oil cap you are creating a leak in the airflow in between the mass airflow meter and the throttle plate, thus providing engine management with false information and causing a stall.
All modern cars employ a PCV system, and no PCV system is "closed" in the sense that there is no inlet to the crankcase. A "closed" pcv system is one that routes its intake to the engine air intake system, breathing into the crankcase with filtered engine intake air; the filtered breather cap systems are referred to as "open."
For the question about the effectiveness of the Ford 6's PCV system, with the breather and valve both in the valve cover, I suggest taking a look at the FSM's illustration of the PCV system where it is described in detail. It shows that there is still a circulation of gases throughout the crankcase. This isn't really all that surprising given the turbulence caused by the crank and pistons whipping about in there, plus the constant pressurization occurring at the bottom end by blow-by. The gases are not stagnant in the lower half of the engine. Unplug your PCV valve from the valve cover and you'll likely see blowby gases issuing forth from the hole by their own pressure. These "dirty" gases don't have any trouble finding their way into the valve cover in spite of the vented breather at the other end.
One might also wonder why the PCV valve doesn't constitue a vacuum leak, or why the proper calibration of the valve matters (which can't be determined by the external appearance or shape of the valve), or why the valve's suction doesn't count as a leak in the case of the BMW with MAF sensor. As we know, the blow by gases enter the crancase and, if not vented, will pressurize it. Depending on how fast the engine is spinning, and how much throttle is applied, the rate of flow of blow by into the crankcase will vary. The PCV valve's job is to remove those gases at exactly the same rate that they enter (well, maybe a SLIGHTLY faster rate, I'm not sure) so that the crankcase is neither pressurized nor a vacuum. The valve can indeed operate as a check valve, but the spring isn't just for that purpose. It is calibrated, along the the shape of the moving pintle inside the valve casing, to create an orifice of just the right size to keep the crankcase unpressurized in any engine speed/load circumstance. At idle there is very little blow-by so the valve is almost shut; at WOT the valve is open as far as it can go. This makes sense; an orifice large enough to adequately vent an engine at WOT would cause a vacuum leak at idle. The tiny opening of the valve at idle does act as a vacuum leak, as far as I can tell, but the carburetor is designed for it and it is easily tuned to idle well. Note the difference in how your engine runs when, with no other modifications, you remove the PCV valve from the engine and plug off its vacuum port.
So, make sure that you are running the correct pcv valve. It can and will make a difference in crankcase ventilation and proper operation of your car.
I don't know whether major engine modifications like cams and carbs and heads and turbos mandate the use of a different pcv valve. I think they might. I avoid those questions by trusting the engineers and staying stock
