Method and device for controlling and/or regulating a fluid conveyor for conveying a fluid within a fluid line

The invention claimed is: 1. A method executing software instructions stored in a memory for the open-loop controlling of a fluid conveyor for conveying a fluid inside a fluid line, the method comprising: obtaining information about a desired flow volume of the fluid inside the fluid line; determining an energy consumption of the fluid conveyor during operation within a working range of the fluid conveyor; open-loop controlling of the fluid conveyor with regard to a generated flow of the fluid based on the information about the desired flow volume of the fluid inside the fluid line in such a way that the desired flow volume of the fluid is achieved and the energy consumption which is required for this is minimized, wherein the fact that the working range of the fluid conveyor is restricted by a non-linear limit is taken into consideration during the open-loop controlling, wherein the working range is defined by a set of pairs of a flow volume and a ratio of a pressure at an inlet and at an outlet of the fluid conveyor, wherein the set of pairs is limited by at least one curved characteristic line; and obtaining information about an actual flow volume of the fluid inside the fluid line, wherein the open-loop controlling of the fluid conveyor is also based on the information about the actual flow volume of the fluid at the delivery points inside the fluid line. 2. The method as claimed in claim 1 , further comprising: modelling of the flow of the fluid through the fluid line and of the pressure of the fluid inside the fluid line, wherein the open-loop controlling of the fluid conveyor is also based on the modelling of the flow of the fluid through the fluid line. 3. The method as claimed in claim 2 , wherein the flow of the fluid through the fluid line is modelled using a non-linear differential equation. 4. The method as claimed in claim 2 , wherein the open-loop controlling of the fluid conveyor is also based on a fluid volume difference between the desired flow volume and the actual flow volume. 5. The method as claimed in claim 4 , wherein the information about the desired flow volume is obtained over a time period and the information about the actual pressure and the actual flow volume is obtained over the time period, wherein the pressure difference and/or the flow volume difference over the time period is summed in order to obtain a pressure difference sum and/or a flow volume difference sum, wherein the open-loop controlling of the fluid conveyor is also based on the pressure difference sum and/or the flow volume difference sum. 6. The method as claimed in claim 1 , wherein the determining of the energy consumption of the fluid conveyor includes determining the energy consumption of the fluid conveyor during engagement and/or disengagement. 7. The method as claimed in claim 1 , wherein a distance between the fluid conveyor and a point along the fluid line at which the desired flow volume is to be achieved is taken into consideration. 8. The method as claimed in claim 1 , wherein at least one secondary condition of a set of secondary conditions is taken into consideration, wherein the set of secondary conditions comprises: avoiding a pressure in the fluid line which lies above a maximum line pressure; avoiding a pressure in the fluid conveyor which lies above a maximum conveyor pressure; distancing of the working point of the fluid conveyor from a limit line of the working range which especially limits the working range of flow volumes which lie below the working range. 9. The method as claimed in claim 1 , further comprising: obtaining further information about the further desired flow volume of the fluid, wherein the desired flow volume is different from the further desired flow volume, wherein the open-loop controlling of the fluid conveyor is also based on the further desired flow volume. 10. The method as claimed in claim 1 , wherein the fluid is a gas and the fluid conveyor is a compressor. 11. The method as claimed in claim 1 , wherein the fluid is an oil and the fluid conveyor is a pump. 12. The method as claimed in claim 1 , wherein the obtaining of information about the desired flow volume of the fluid inside the fluid line comprises obtaining information about a desired flow volume of the fluid at a plurality of points inside the fluid line, wherein the method further comprises: determining an energy consumption of at least one further fluid conveyor during operation within a further working range of the further fluid conveyor; open-loop controlling of the fluid conveyor and/or of the at least one further fluid conveyor with regard to a generated flow of the fluid based on the information about the desired flow volume of the fluid at the plurality of points of the fluid line in such a way that desired flow volumes of the fluid are achieved at the plurality of points and the energy consumption which is required for this is minimized. 13. The method as claimed in claim 1 , wherein the flow of the fluid is expressed in an energy flux volume. 14. A device for the open-loop controlling/closed-loop controlling of a fluid conveyor for conveying a fluid inside a fluid line, comprising: a first input for obtaining information about a desired flow volume of the fluid inside the fluid line; a second input for obtaining information about an actual flow volume of the fluid inside the fluid line; a determination module stored in a memory for determining an energy consumption of the fluid conveyor during operation within a working range of the fluid conveyor; and an open-loop control module stored in a memory for the open-loop controlling of the fluid conveyor with regard to a generated flow of the fluid based on the information about the desired flow volume of the fluid inside the fluid line in such a way that the desired flow volume of the fluid is achieved and the energy consumption which is required for this is minimized, wherein the open-loop controlling of the fluid conveyor is also based on the information about the actual flow volume of the fluid at the delivery points inside the fluid line; wherein the fact that the working range of the fluid conveyor is restricted by a non-linear limit is taken into consideration during the open-loop controlling, wherein the working range is defined by a set of pairs of a flow volume and a ratio of a pressure at an inlet and at an outlet of the fluid conveyor, wherein the set of pairs is limited by at least one curved characteristic line.