Method for operating a common rail injection arrangement for an internal combustion engine having a stop-start system

The invention claimed is: 1. A method for operating a common rail injection arrangement, which is provided for an internal combustion engine having a stop-start system and which comprises a pre-supply pump connected to a high-pressure pump in a manner which allows fluid transfer, a volume control valve located upstream of the high-pressure pump and downstream of the pre-supply pump which controls fluid transfer therethrough, and a manifold connected to the high-pressure pump in a manner which allows fluid transfer, as well as at least one injection nozzle connected to the manifold in a manner which allows fluid transfer, wherein the pre-supply pump is kept active when the internal combustion engine is in operation, the method comprising: initiating a stop phase by shutting down the running internal combustion engine and putting the high-pressure pump out of operation, wherein the pre-supply pump is switched to an inactive state; initiating a starting phase for the out-of-operation internal combustion engine, wherein the high-pressure pump is operated at least temporarily in an unpressurized state while the volume control valve substantially prevents fluid flow therethrough before or during the starting phase of the internal combustion engine, while the pre-supply pump is switched to an active state and delivers fuel to the high-pressure pump and builds up pre-supply pressure; operating the high-pressure pump to increase pressure within the common rail injection arrangement, in response to the pre-supply pressure increasing above a threshold; and starting the internal combustion engine by cranking the engine and injecting fuel into a combustion chamber of the internal combustion engine with the aid of the pressure provided within the common rail injection arrangement. 2. The method of claim 1 , wherein the common rail injection arrangement is at least partially closed by at least one shutoff valve. 3. The method of claim 1 , wherein the volume control valve is connected to the high-pressure pump in a manner which allows fluid transfer and is closed in conjunction with the stop phase of the internal combustion engine. 4. The method of claim 3 , wherein operating the high-pressure pump to increase pressure within the common rail injection arrangement, in response to the pre-supply pressure increasing above the threshold further comprises opening the volume control valve to enable fluid flow therethrough. 5. The method of claim 1 , further comprising switching on the pre-supply pump before starting the engine and putting the high-pressure pump into operation to increase an initial pressure within the high-pressure pump. 6. The method of claim 1 , further comprising switching on the pre-supply pump while operating the high-pressure pump in the unpressurized state when starting the internal combustion engine to increase an initial pressure within the high-pressure pump. 7. A system for a common rail injection arrangement of a stop-start engine, the system comprising: a high-pressure fuel pump; a pre-supply pump connected to the high-pressure fuel pump in a manner which allows fluid transfer, wherein the pre-supply pump is kept active when an internal combustion engine is in operation; a volume control valve which controls fluid transfer therethrough; a manifold connected to the high-pressure fuel pump in a manner which allows fluid transfer; at least one injection nozzle connected to the manifold in a manner which allows fluid transfer; and a controller with computer readable instructions stored in non-transitory memory for: initiating a stop phase by putting the running internal combustion engine and the high-pressure fuel pump out of operation, wherein the pre-supply pump is also switched to an inactive state and the volume control valve is moved to a closed position which substantially prevents fluid flow therethrough; maintaining, within the common rail injection arrangement, a pressure built up by the high-pressure fuel pump during the operation of the internal combustion engine, wherein the pre-supply pump is kept inactive during the maintaining; initiating a starting phase for the out-of-operation internal combustion engine, wherein the pre-supply pump is switched to an active state; starting the internal combustion engine by cranking the latter and at least partial injection of fuel into a combustion chamber of the internal combustion engine with the aid of the pressure maintained within the common rail injection arrangement, wherein the high-pressure fuel pump is operated at least temporarily in an unpressurized state during the starting; and switching the high-pressure fuel pump into a pressurized state to maintain or increase the pressure within the common rail injection arrangement and opening the volume control valve in response to a pre-supply pressure increasing above a threshold to continue supplying the running internal combustion engine with fuel. 8. The system of claim 7 , wherein the controller further includes instructions for powering on the pre-supply pump in the active state. 9. A method for a stop-start engine comprising: during an engine stop: powering off a lift pump; and closing a volume control valve; and in response to receiving a desired engine start: powering on the lift pump; initiating cylinder combustion; and operating a higher pressure pump (HPP) in a mode with an inlet valve between the lift pump and the HPP open; and, after combustion is initiated, switching the HPP to a pressurized mode in response to fuel pressure upstream of the HPP reaching a threshold, and otherwise maintaining the inlet valve open. 10. The method of claim 9 , further comprising, during the engine stop, closing the volume control valve positioned between the HPP and the lift pump to stop supplying fuel to the HPP, where, in the closed position of the volume control valve, substantially no fuel flows therethrough. 11. The method of claim 9 , further comprising, during the engine stop, opening the inlet valve positioned between the lift pump and a single pressure chamber of the HPP for regulating fuel flow therebetween to permit fuel flow between the pressure chamber and the lift pump. 12. The method of claim 9 , further comprising, during the engine stop, closing the inlet valve positioned between the lift pump and a single pressure chamber of the HPP for regulating fuel flow therebetween to restrict fuel flow between the pressure chamber and the lift pump. 13. The method of claim 9 , where the operating the HPP in the mode comprises maintaining the volume control valve positioned between the lift pump and the HPP in a closed position during both intake and compression strokes of the HPP. 14. The method of claim 9 , where the operating the HPP in the mode comprises maintaining the inlet valve positioned between the lift pump and a single pressure chamber of the HPP to permit fuel flow between the pressure chamber of the HPP and the lift pump and add pressure to fuel included upstream of the pressure chamber, between the pressure chamber and the lift pump. 15. The method of claim 9 , wherein the switching the HPP to the pressurized mode comprises opening the volume control valve positioned between the lift pump and the HPP during both intake and compression strokes of the HPP. 16. The method of claim 9 , wherein the switching the HPP to the pressurized mode comprises opening the inlet valve positioned between the lift pump and a single pressure chamber of the HPP during an intake stroke of a piston of the pressure chamber to supply fuel to the pressure chamber, and closing t