Combustion engine and method for operating a combustion engine with discharge of condensation water from the induction tract

What is claimed is: 1. A method for operating a combustion engine with charge and charge air cooling, comprising adjusting or changing over time a charge air volume flow through a charge air cooler by means of at least one charge air cooler valve in a critical operating state which is adjusted so that it does not prevent condensation from being formed and all condensation water present in at least one of the charge air cooler and an induction tract downstream of the charge air cooler is gradually successively fed not impulsively but in dosed discharge in harmless amounts into a combustion chamber of the combustion engine and discharged from the combustion chamber. 2. The method of claim 1 , wherein the critical operating state of the combustion engine includes a cold start phase of the combustion engine. 3. The method of claim 2 , further comprising dividing the charge air volume flow into a partial volume flow through the charge air cooler and a partial volume flow through a bypass, with the partial volume flow through the bypass being separately settable and/or changeable over time with at least one bypass valve. 4. The method of claim 3 , wherein the charge air cooler valve and the bypass valve are controlled by open loop or closed loop control by a control device. 5. The method of claim 4 , wherein the charge air cooler valve and optionally the bypass valve are controlled or regulated as a function of measuring values of at least one temperature sensor which is arranged in a region of the charge air cooler or in the downstream induction tract. 6. The method of claim 4 , wherein the charge air cooler valve and optionally the bypass valve are controlled or regulated as a function of measuring values of at least one humidity sensor which is arranged in a region of the charge air cooler or in the downstream induction tract. 7. A combustion engine, comprising: at least one compressor; at least one charge air cooler downstream of the compressor, said at least one charge air cooler comprising a charge air cooler valve configured for at least one of setting and changing over time a charge air volume flow through the charge air cooler; and a control device constructed to control or regulate the charge air cooler valve which is adjusted so that it does not prevent condensation from being formed and condensation water present in the charge air cooler or in an induction tract downstream of the charge air cooler is all successively fed not impulsively but in dosed discharge into the combustion chamber in harmless amounts and discharged from the combustion chamber. 8. The combustion engine of claim 7 , further comprising a bypass parallel to the charge air cooler, said bypass having at least one bypass valve for dividing the charge air volume flow into a partial volume flow through the charge air cooler and a partial volume flow through the bypass, with the partial volume flow through the bypass being separately settable or changeable or both over time by means of the bypass valve. 9. The combustion engine of claim 7 wherein the control device is configured to control or adjust the charge air cooler valve and optionally the bypass valve as a function of measuring values of at least one temperature sensor or humidity sensor or both. 10. The combustion engine of claim 7 , further comprising an exhaust gas recirculation system causing the charge air volume flow to at least temporarily contain a proportion of re-circulated exhaust gas.