DED0008528MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: October 30, 1943 Recognition on August 30, 1956

GERMAN PATENT OFFICE

In an effort to increase both the power and the full head of aircraft engines, the peripheral speeds of loaders have been increased more and more to achieve the necessary pressure ratio. Sufficient as a result of the maximum permissible load reached the pressure ratio of the material of the loader impeller is not yet sufficient, the compression will start the charge air, carried out in a multi-stage charger. In both cases, however, with the Increase in the pressure ratio of the supercharger, a strong increase in the temperature of the charge air, which not only results in a reduction in performance, but also a possible reaching of the knocking area result! has.

As a remedy, intercoolers have been proposed, because with the usual knocking behavior of the engine from the normal operating state with increasing Charge air temperature comes into the knock area. This is due to the fact that the Knocking in conventional engines is determined by the temperature of the unburned mixture residue will. This is highest in the area of the air ratio 1.05, and accordingly occurs here Strongest knocking occurs at constant boost pressure, or when passing through a knock limit curve, d. H. if the boost pressure changes, this is the lowest point of the knock limit curve. Accordingly is achieved by increasing the intake air temperature, which increases the temperature of the un-

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Burned residual mixture results in the engine knocking even at lower boost pressures brought about.

According to the views that are valid in the technical world are the variables which lead to auto-ignition of the fuel in the unburned mixture, the Density and its change over time, the temperature and its change over time and place as well as the mixture composition and their

ίο change. If otherwise the same operating conditions prevail, the mixture composition is an essential factor influencing the knocking behavior. If there are differences in the composition of the mixture, a different final temperature results both from the change in the quotient c “lc _v and the change in the combustion temperature, taking into account the dissociation of the combustion gases; the maximum value is approximately stoichiometric air

ao fuel ratio, which of this maximum value outgoing temperature decrease in the area of lack of air is much greater than that in Excess air area, therefore the knocking behavior in the Reich area should be more favorable than in the case of impoverishment. However, as the excess air increases, the rate of combustion decreases under otherwise constant operating conditions beyond the direct effect of the mixing ratio to ever lower peak pressures and thus peak temperatures of the unburned mixture residue, which would explain the beneficial effect of the mixture depletion. These considerations apply to evaporated or almost completely evaporated fuels in the stage of Mixture compression. However, droplets are still unevaporated during the mixture compression present, there is a considerable amount because of the increased peroxide formation which occurs on them Reduction of the reaction temperature compared to the corresponding mixture with completely evaporated fuel content instead. The invention is based on the object of the mixture formation to arbitrarily influence and thereby a shift of the lowest point of the so-called Bring about the knock limit curve (definition below) in the area of extreme lack of air, so that one is able to keep the knock limit higher and higher through constant mixture depletion to put higher.

If you wear that over the respective air-fuel ratio barely knock-free, d. H. permissible boost pressures for the individual operating states of the air-fuel ratio, the connecting line results these points make a curve. Since the operating points described above are barely knock-free, namely can be driven at the knock limit, is the line connecting this to the Knock limit points the knock limit curve.

According to the invention relating to a method for operating supercharged gasoline engines it is proposed to reduce the tendency of the machine to knock in the area of the air ' Excess and: to achieve a temperature, lowering the combustion chamber by increasing the Valve overlap and influencing the mixture formation the evaporation of fuel in the To retard the combustion chamber and to promote the formation of non-evaporated fuel droplets and those Use fuels that are in the non-evaporated state in droplet form 'during heating tend to form peroxide most easily. It is useful, as a result of the increase in temperature Compensate for any loss of power that occurs by increasing the boost pressure.

An effective measure for shifting the lowest point of the knock limit curve is initially to increase the valve overlap, a measure that _{reduces the temperature level through improved S 0} purging of the cylinder and thus of the combustion chamber with increasing valve overlap, so that the evaporation of fuel is delayed and the formation of non-evaporated fuel droplets ; promotes. As a further measure, the mixture formation is influenced. This can be done by enlarging the nozzle outlet opening, changing the nozzle bore or other measures to prevent the tearing of the fuel jet, such as reducing the spray pressure, preventing swirl on the entering fuel stream, etc. A suitable choice of the air correction holes has the same effect, namely the splitting of the fuel into droplets that are too small and thus preventing too rapid evaporation. However, there are limits to the increase in valve overlap in carburettor operation due to the fuel losses that occur as a result of the mixture flushing. The final measure is the choice of suitable fuels; These are fuels which, in the non-evaporated state, tend to form peroxide most easily during the heating process. Paraffinic fuels are excellently suited for this, and fuels based on naphthenic or olefinic substances are also cheap. Fuels containing aromatics are less suitable; Pure benzene is out of the question because of its resistance to splitting.

This instruction ensures that another chemical reaction is knock-determining, which in contrast to the first mentioned above, namely the spontaneous ignition of the unburned mixture residue, in a certain range so ^; becomes livelier the colder the mixture is. Engines of this type show the greatest tendency to knock in the area of the lack of air, while knocking decreases with increasing leanness. In view of the nature of the chemical reactions that take place here, these engines show an increase in knock resistance with an increase in the charge air temperature when using suitable fuels.

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The use of intercoolers, which was previously necessary to maintain the required performance without knocking, has become superfluous, unless the material stress on valves, candles, pistons, etc. makes it necessary to maintain a temperature limit. In the proposed method, the same performance can be achieved by compensating for the loss of performance resulting from the increase in temperature by increasing the boost pressure without having to change the mixture setting of the engine. For the reasons given, there is no knocking.
From the two illustrations shows

Fig. Ι the increase in knock resistance with increasing charge air temperature one after the other engine operated according to the invention, while

Fig. 2 shows the constant power achievable under these operating conditions.

The air ratio is plotted as the abscissa in both figures, the absolute boost pressure p _{L is} plotted as the ordinate in Fig. 1 and the mean useful pressure p _{me in Fig. 2.}

Claims (2)

PATENT CLAIMS: 1. A method for operating supercharged gasoline engines, characterized in that for Reduction of the machine's tendency to knock in the area of excess air and to achieve it a temperature reduction in the combustion chamber by increasing the valve overlap and influencing the mixture formation Evaporation of fuel in the combustion chamber is delayed and the formation of non-evaporated fuel droplets is promoted and that those fuels are used which in the non-evaporated state in droplet form during the easiest to heat up, tend to form peroxydi. 2. Procedure for operating gasoline engines according to claim 1, characterized in that as a result of an increase in temperature of the loading means Any loss of power that occurs is compensated for by increasing the boost pressure. 1 sheet of drawings