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In a gas fueled internal combustion engine, in particular a natural gas fueled internal combustion engine, as well as in a method for fuelling an internal combustion engine with gas, in particular with natural gas, with a charged “downsizing” Otto engine and an injection of the gas, a homogenous sto

In a gas fueled internal combustion engine, in particular a natural gas fueled internal combustion engine, as well as in a method for fuelling an internal combustion engine with gas, in particular with natural gas, with a charged “downsizing” Otto engine and an injection of the gas, a homogenous stoichiometric gas-air mixture is set and the charging takes place by an exhaust turbo charger as well as a compressor, which can be turned off and is located above the exhaust turbo charger in the air suction route.

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1. A natural gas fueled internal combustion engine comprising: a gas injection system operable to inject natural gas; andan air suction route to a cylinder housing of said natural gas fueled internal combustion engine, wherein the natural gas fueled internal combustion engine has a cubic capacity be

1. A natural gas fueled internal combustion engine comprising: a gas injection system operable to inject natural gas; andan air suction route to a cylinder housing of said natural gas fueled internal combustion engine, wherein the natural gas fueled internal combustion engine has a cubic capacity between about 1.0 liter to 1.8 liters and a compression proportion of 12 to 14, wherein the air suction route is coupled to the gas injection system, the air suction route comprising: an exhaust turbo charger comprising; a supercharger; anda turbine;a compressor located upstream from the exhaust turbo charger in the air suction route,a coupling for coupling and decoupling of the compressor with a crankshaft of the internal combustion engine;a push mode air circulation valve coupling an output of the exhaust turbo charger with an input of the exhaust turbo charger; anda supercharger butterfly valve coupled between the exhaust turbo charger and the compressor and configured to deliver airflow to the exhaust turbo charger through said compressor in a first operation mode, and to deliver airflow directly to said exhaust turbo charger via a compressor bypass in a second operation mode, wherein control of the airflow supplied directly to said exhaust turbo charger via said compressor bypass is based at least on one of the following: if the compressor provides an insufficient air amount to the exhaust turbo charger; orif the compressor is unseated. 2. The natural gas fueled internal combustion engine according to claim 1 wherein the natural as fueled internal combustion engine has an output of between 100 kW and 125 kW. 3. The natural gas fueled internal combustion engine according to claim 1, wherein the gas injection system comprises: a tank storing natural gas;a gas rail;a plurality of gas injectors; andwherein the gas rail and gas injectors are configured to inject the stored natural gas into the air suction route with an adjustable pressure. 4. The natural gas fueled internal combustion engine according to claim 1, wherein the compressor bypass comprises a bypass conduit in the air suction route which can be closed by said supercharger butterfly valve, wherein the bypass conduit couples the compressor with the supercharger butterfly valve. 5. The natural gas fueled internal combustion engine according to claim 1, further comprising an emergency tank for storing gasoline,an additional injection system,engine controlling equipment for controlling injection of gasoline from the emergency tank into the additional injection system. 6. The natural gas fueled internal combustion engine according to claim 5, further comprising a control display indicating a filling condition of a natural gas tank. 7. The natural gas fueled internal combustion engine according to claim 1, wherein the coupling is a magnetic coupling. 8. A method comprising the steps of: injecting natural gas from a gas injection system to an air suction route to an cylinder housing of an internal combustion engine, wherein the natural gas fueled internal combustion engine has a cubic capacity between about 1.0 liter to 1.8 liters and a compression proportion of 12 to 14, and wherein the air suction route comprises: an exhaust turbo charger comprising: a supercharger; anda turbine;a compressor located upstream from the exhaust turbo charger in the air suction route;a push mode air circulation valve coupling an output of the exhaust turbo charger with an input of the exhaust turbo charger;a coupling for coupling and decoupling of the compressor with a crankshaft of the internal combustion engine; and a compressor bypass comprising a supercharger butterfly valve coupled between the exhaust turbo charger and an air inlet;controlling the supercharger butterfly valve such that air is delivered in series through the compressor, through the exhaust turbo charger, and into the internal combustion engine to obtain a homogenous gas-air mixture between about 0.9 to about 1.1;wherein if the compressor is providing insufficient air amount to the exhaust turbo charger orif the compressor is decoupled from the crankshaft of the internal combustion engine,then adjusting the supercharger butterfly valve for providing air directly to the exhaust turbo charger bypassing the compressor; andactivating the push mode air circulation valve in case the turbo charger overwinds. 9. The method according to claim 8, wherein injecting the natural gas comprises injecting the natural gas at a pressure of about 200 bar. 10. The method according to claim 8, further comprising compressing the gas-air mixture based at least on a compression efficiency. 11. The method according to claim 8, further comprising igniting the compressed gas-air mixture. 12. The method according to claim 8, further comprising the steps of: providing an emergency tank for storing gasoline,providing an additional injection system, andinjecting gasoline from the emergency tank into the additional injection system if a natural gas tank is no longer sufficiently filled. 13. The method according to claim 12, further comprising the step of indicating a filling condition of a natural gas tank on a display. 14. The method according to claim 8, wherein the compressor is decoupled from the crankshaft via a magnetic coupling. 15. The method according to claim 8 wherein the natural gas fueled internal combustion engine has an output of between 100 kW and 125 kW.