Injection device for two fuels containing ethanol, an internal combustion engine, and a method for operating an injection device

What is claimed is: 1. An injection device for an internal combustion engine, comprising: a first injection system for injecting a fuel having a first fuel composition; and a second injection system for injecting a fuel having a second fuel composition with a lower ethanol component than the first fuel composition, the first injection system having at least one first fuel injector for injecting the fuel having the first fuel composition both in the direction of a first intake orifice of a combustion chamber of the internal combustion engine, and in the direction of a second intake orifice of the combustion chamber; wherein the second injection system has a second fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the first intake orifice, and a separate third fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the second intake orifice, wherein the distance between the second fuel injector and the first intake orifice, and the distance between the third fuel injector and the second intake orifice is smaller in each case than the distance between the at least one first fuel injector and the first or second intake orifice, and wherein at least one of the second fuel injector and third fuel injector are configured to inject the fuel having the second fuel composition into the combustion chamber such that the fuel having the second fuel composition evaporates in the combustion chamber and the combustion chamber is cooled. 2. The injection device of claim 1 , wherein the second fuel injector is for injecting the fuel having the second fuel composition into a first intake duct discharging into the first intake orifice, and the third fuel injector is for injecting the fuel having the second fuel composition into a second intake duct discharging into the second intake orifice. 3. The injection device of claim 1 , wherein the first fuel injector has a dual-jet characteristic and, two first injection orifices for injecting the fuel having the first fuel composition, and/or the first fuel injector is situated in an intake manifold, which discharges into the first and second intake duct. 4. The injection device of claim 1 , wherein the second fuel injector and the third fuel injector have different dimensions such that different quantities of the fuel having the second fuel composition are injected through the second and third fuel injector and/or the second fuel injector and the third fuel injector are actuatable independently of each other. 5. The injection device of claim 1 , wherein the second fuel injector and the third fuel injector are dimensioned for a lower fuel flow rate range than the at least one first fuel injector. 6. An internal combustion engine, comprising: an injection device, including: a first injection system for injecting a fuel having a first fuel composition; and a second injection system for injecting a fuel having a second fuel composition with a lower ethanol component than the first fuel composition, the first injection system having at least one first fuel injector for injecting the fuel having the first fuel composition both in the direction of a first intake orifice of a combustion chamber of the internal combustion engine, and in the direction of a second intake orifice of the combustion chamber; wherein the second injection system has a second fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the first intake orifice, and a separate third fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the second intake orifice, wherein the distance between the second fuel injector and the first intake orifice, and the distance between the third fuel injector and the second intake orifice is smaller in each case than the distance between the at least one first fuel injector and the first or second intake orifice, and wherein at least one of the second fuel injector and third fuel injector are configured to inject the fuel having the second fuel composition into the combustion chamber such that the fuel having the second fuel composition evaporates in the combustion chamber and the combustion chamber is cooled. 7. A method for operating an injection device, the method comprising: injecting, using at least one first fuel injector of an injection device, the fuel having the first fuel composition, which has a higher ethanol component than the second fuel composition, both in the direction of the first intake orifice and in the direction of the second intake orifice, wherein the injection device includes: a first injection system for injecting a fuel having a first fuel composition, and a second injection system for injecting a fuel having a second fuel composition with a lower ethanol component than the first fuel composition, the first injection system having at least one first fuel injector for injecting the fuel having the first fuel composition both in the direction of a first intake orifice of a combustion chamber of the internal combustion engine, and in the direction of a second intake orifice of the combustion chamber, wherein the second injection system has a second fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the first intake orifice, and a separate third fuel injector for injecting the fuel having the second fuel composition essentially only in the direction of the second intake orifice, wherein the distance between the second fuel injector and the first intake orifice, and the distance between the third fuel injector and the second intake orifice is smaller in each case than the distance between the at least one first fuel injector and the first or second intake orifice, and wherein at least one of the second fuel injector and third fuel injector are configured to inject the fuel having the second fuel composition into the combustion chamber such that the fuel having the second fuel composition evaporates in the combustion chamber and the combustion chamber is cooled; injecting, using the second fuel injector, the fuel having the second fuel composition essentially only in the direction of the first intake orifice; and injecting, using the third fuel injector, the fuel having the second fuel composition essentially only in the direction of the second intake orifice. 8. The method of claim 7 , wherein the at least one first fuel injector is used exclusively for injecting the fuel having the first fuel composition, and wherein the second fuel injector and the third fuel injector is used exclusively for injecting the fuel having the second fuel composition. 9. The method of claim 7 , wherein in a start-up phase of the internal combustion engine, predominantly the fuel having the second fuel composition is injected with the aid of the second fuel injector and the third fuel injector, and wherein, in a load phase, predominantly the fuel having the first fuel composition, is injected with the aid of the first fuel injector. 10. The method of claim 7 , wherein the fuel having the second fuel composition is supplied to the second injection system under higher pressure than the fuel having the first fuel composition that is supplied to the first injection system, and/or the pressure under which the fuel having the second fuel composition is supplied to the second injection system is adjusted as a function of operating parameters of the internal combustion engine.