Device and method for the provision of pressurized medium for injection into a high pressure process

What is claimed is: 1. A high-pressure system comprising: a vessel configured for high pressure; a primary compressor; a secondary compressor; a high-pressure reactor; a high-pressure separator; a low-pressure separator, and a pump injection arrangement configured to inject a medium at at least two different pressure levels into either the high-pressure reactor or a high-pressure polymerization process upstream of the high-pressure reactor, wherein the pump injection arrangement comprises: injection pump apparatuses for the medium comprising olefins, substances having a double bond, alkenes, or propylene, wherein the injection pump apparatuses are coupled to at least one of the high-pressure reactor or to a high-pressure conduit section upstream of the high-pressure reactor, and a regulating unit that is coupled to the injection pump apparatuses and is configured to regulate injection by at least two of the injection pump apparatuses, wherein the pump injection arrangement is configured to synchronize regulation of the injection pump apparatuses with one another and to inject the medium at flow rates of greater than 150 liters per hour, wherein at least two of the injection pump apparatuses that are synchronously regulated are double acting bidirectionally operating high-pressure pumps that are functionally coupled with at least single redundancy to the regulating unit such that a pressure is generated via at least two shafts and such that the medium under pressure is made available for injection via a high-pressure conduit. 2. The high-pressure system of claim 1 wherein the injection pump apparatuses are synchronized with one another such that a phase offset of 180° of pistons of at least the double acting bidirectionally operating high-pressure pumps is set. 3. The high-pressure system of claim 1 wherein each double acting bidirectionally operating high-pressure pump includes a double acting hydraulic cylinder that is connected to two high-pressure heads to provide the high-pressure conduit. 4. The high-pressure system of claim 1 wherein the pump injection arrangement has a linear position transducer coupled to one or more shafts of the pump injection arrangement. 5. The high-pressure system of claim 1 wherein the injection pump apparatuses are functionally coupled in a closed regulating circuit, wherein the pump injection arrangement includes a proximity switch coupled to one or more shafts of the pump injection arrangement. 6. The high-pressure system of claim 1 wherein the pump injection arrangement comprises at least three of the injection pump apparatuses, wherein the at least three of the injection pump apparatuses are double acting high-pressure pumps that are functionally coupled with at least double redundancy to the regulating unit such that the pressure is generated via at least three shafts and such that the medium under pressure is provided for injection via the high-pressure conduit. 7. The high-pressure system of claim 6 wherein the at least three shafts are synchronized such that a phase offset of pistons of the injection pump apparatuses is set at 120° or less. 8. A method for controlling and/or regulating the pump injection arrangement of the high-pressure system of claim 1 during injection of a medium comprising comonomers, initiators, or modifiers at a process position of a high-pressure polymerization process comprising multistage pressure build-up and a high-pressure reaction, the method comprising: regulating the injection pump apparatuses in a synchronized manner with the regulating unit with dependence of the injection pump apparatuses on one another; operating at least two of the injection pump apparatuses as double acting bidirectionally operating high-pressure pumps; functionally regulating the at least two of the injection pump apparatuses with at least single redundancy such that a pressure is generated via at least two shafts and the medium under pressure is made available for injection via a high-pressure conduit; injecting the medium at flow rates of greater than 150 liters per hour, wherein at the flow rates of greater than 150 liters per hour the medium is injected exclusively by the double acting bidirectionally operating high-pressure pumps. 9. The method of claim 8 comprising either: regulating at least two of the injection pump apparatuses with a phase offset of 180° of pistons with dependence on one another; or setting a phase offset of pistons of the injection pump apparatuses at not more than 120°. 10. The method of claim 8 comprising providing the medium under pressure at the process position on a high-pressure conduit of all of the injection pump apparatuses regulated for the process position. 11. The method of claim 8 wherein the regulation is position-based on a basis of measured data of a linear position transducer coupled to one or more shafts of the pump injection arrangement. 12. The method of claim 8 wherein the regulation is performed in a closed regulating circuit. 13. The method of claim 8 wherein at least three of the injection pump apparatuses that are synchronously regulated are operated as double acting bidirectionally operating high-pressure pumps and are functionally regulated with at least double redundancy such that the pressure is generated via at least three shafts and such that the medium under pressure is provided for injection via the high-pressure conduit.