Predictive operational planning in a microgrid taking into account high-load time windows of a main electricity grid

The invention claimed is: 1. A method for predictive operational planning in a microgrid having a plurality of nodes and a connection to a main electricity grid, wherein the method comprises: optimizing a target function for a planning interval of the microgrid, wherein the target function takes into account a power draw of the microgrid from the main electricity grid in at least one high-load time window of the main electricity grid, wherein the at least one high-load time window comprises a plurality of high-load time windows, wherein the plurality of high-load time windows are arranged in the planning interval and in a historical interval that is longer than the planning interval by at least a factor of 10, wherein the target function takes into account a further power draw of the microgrid from the main electricity grid outside of the plurality of high-load time windows in the historical interval and in the planning interval, performing the predictive operational planning based on a result of the optimization; and controlling at least one node of the plurality of nodes according to the predictive operational planning, wherein controlling the at least one node includes exchanging power between the microgrid and the main electricity grid. 2. The method as claimed in claim 1 , further comprising: loading at least one value for the power draw and/or the further power draw from a variable in connection with performing the optimization, and updating the at least one value depending on the operational planning. 3. The method as claimed in claim 1 , wherein the target function takes into account a case differentiation between (i) qualifying for atypical grid operation and (ii) not qualifying for atypical grid operation, wherein the case differentiation is made depending on a ratio of the power draw and the further power draw. 4. The method as claimed in claim 3 , wherein the target function has a predefined bonus in the case (i) of qualifying for atypical grid operation, wherein the target function does not have the predefined bonus in the case (ii) of not qualifying for atypical grid operation. 5. The method as claimed in claim 1 , further comprising: if no information is available about the historical interval: using an assumption for the maximum power draw of the microgrid from the main electricity grid in the plurality of high-load time windows. 6. The method as claimed in claim 1 , wherein the optimization is performed as a mixed-integer linear optimization. 7. A device having a processor that is configured to: optimize a target function for a planning interval of a microgrid having a plurality of nodes, wherein the target function takes into account a power draw of the microgrid from a main electricity grid in at least one high-load time window of the main electricity grid, wherein the at least one high-load time window comprises a plurality of high-load time windows, wherein the plurality of high-load time windows are arranged in the planning interval and in a historical interval that is longer than the planning interval by at least a factor of 10, wherein the target function takes into account a further power draw of the microgrid from the main electricity grid outside of the plurality of high-load time windows in the historical interval and in the planning interval; perform operational planning of the microgrid based on a result of the optimization; and control at least one node of the plurality of nodes according to the operational planning, wherein controlling the at least one node includes exchanging power between the microgrid and the main electricity grid. 8. The device as claimed in claim 7 , wherein the processor is further configured to execute a method for predictive operational planning in the microgrid.