Method for operating a reductant metering process of an SCR catalytic converter system, and corresponding SCR catalytic converter system

The invention claimed is: 1. A method for carrying out a reductant metering process of an SCR catalytic converter system of an internal combustion engine, wherein the SCR catalytic converter system has a first SCR exhaust-gas treatment unit, an SCR catalytic converter located downstream from the first SCR exhaust-gas treatment unit, and a reductant metering device for metering a reductant into the exhaust-gas stream upstream from the first SCR exhaust-gas treatment unit, whereby the reductant metering process is controlled at least as a function of the temperature of the first SCR exhaust-gas treatment unit and of the downstream SCR catalytic converter, whereby if the temperature of the first SCR exhaust-gas treatment unit is higher than or equal to a first prescribed minimum temperature as defined as T_SPF_min and if the temperature of the downstream SCR catalytic converter is lower than a second prescribed minimum temperature as defined as T_SCR_min, the reductant metering process takes place in a first mode of operation in such a way that the reductant filling level of the first SCR exhaust-gas treatment unit is lower than its maximum reductant filling level, and if the temperature of the downstream SCR catalytic converter is higher than or equal to T_SCR_min, the reductant metering process takes place in a second mode of operation in such a way that the reductant filling level of the first SCR exhaust-gas treatment unit is higher than its maximum reductant filling level, so that a reductant breakthrough that is passing the first SCR exhaust-gas treatment unit reaches the downstream SCR catalytic converter. 2. The method according to claim 1 , wherein either (i) the SCR catalytic converter system also comprises a particulate filter or (ii) the first SCR exhaust-gas treatment unit is configured as a particulate filter having a catalytic SCR coating. 3. The method according to claim 1 , wherein the reductant filling level of the first SCR exhaust-gas treatment unit is controlled in the first and second modes of operation on the basis of two different target filling-level characteristic lines, which are temperature dependent. 4. The method according to claim 1 wherein, in the second mode of operation, the target filling level of the downstream SCR catalytic converter is controlled as a function of the temperature via the reductant filling level of the first SCR exhaust-gas treatment unit. 5. The method according to claim 4 , wherein the second mode of operation is ended when the reductant filling level of the downstream SCR catalytic converter reaches or exceeds its temperature-dependent target filling level, and/or when the temperature of the downstream SCR catalytic converter falls below T_SCR_min. 6. The method according to claim 5 , wherein, after the end of the second mode of operation, the reductant metering process is carried out once again in the first mode of operation in such a way that the reductant filling level of the first SCR exhaust-gas treatment unit is lower than its maximum reductant filling level, until the reductant filling level of the downstream SCR catalytic converter reaches or falls below a prescribed temperature-dependent minimum filling level, and when the temperature of the downstream SCR catalytic converter is higher than or equal to T_SCR_min. 7. The method according to claim 1 wherein the exceeding of a prescribed NO x mass flow of the exhaust gas is required as an additional criterion for the reductant metering process in accordance with the second mode of operation. 8. The method according to claim 1 wherein the reductant filling level of the first SCR exhaust-gas treatment unit and/or of the downstream SCR catalytic converter is determined as a function of the reductant charge, as a function of the catalytic reductant consumption, and as a function of the reductant discharge. 9. The method according to claim 8 , wherein reductant filling level of the first SCR exhaust-gas treatment unit is determined as a function of the metered-in quantity of reductant, as a function of the NO x raw emissions of the internal combustion engine, as a function of the reductant desorption and/or as a function of the reductant breakthrough through the first SCR exhaust-gas treatment unit. 10. The method according to claim 8 , wherein the reductant filling level of the downstream SCR catalytic converter is determined as a function of the reductant breakthrough and as a function of the reductant desorption of the first SCR exhaust-gas treatment unit and as a function of the reductant consumption of the downstream SCR catalytic converter. 11. The method according to claim 1 wherein the reductant is ammonia (NH 3 ) or a precursor compound of ammonia, especially urea, preferably an aqueous urea solution. 12. An SCR catalytic converter system of an internal combustion engine, comprising a first SCR exhaust-gas treatment unit arranged near the engine, an SCR catalytic converter that is arranged downstream from the first SCR exhaust-gas treatment unit, a reductant metering device for metering a reductant into the exhaust-gas stream upstream from the first SCR exhaust-gas treatment unit, and a control unit configured to carry out the method for carrying out a reductant metering process according to claim 1 .