Fuel system for a multi-fuel engine

The invention claimed is: 1. A fuel system for an internal combustion engine, comprising: a first fuel tank storing a first fuel type; a second fuel tank storing a second fuel type; a group of port fuel injectors in communication with a group cylinders; a group of direct injectors in communication with the group of cylinders; a first low pressure fuel pump in communication with the first fuel tank; a high pressure fuel pump in communication with the group of port fuel injectors via a solenoid valve, and further communicating with the group of direct injectors; a turbocharger coupled to the engine; and a control system configured with non-transitory instructions for: supplying the first fuel type solely from the first fuel tank to the group of port fuel injectors via the first low pressure fuel pump and the high pressure fuel pump; and supplying the first fuel type solely from the first fuel tank to the group of direct injectors via the first low pressure fuel pump and high pressure fuel pump. 2. The fuel system of claim 1 , where the supplying the first fuel type to the group of port fuel injectors via the first low pressure fuel pump and the high pressure fuel pump is in response to a request for cooling or lubrication of the high pressure fuel pump. 3. The fuel system of claim 1 , where the supplying to the group of direct injectors via the first low pressure fuel pump and the high pressure fuel pump is in response to a fuel level in the second fuel tank falling below a threshold. 4. The fuel system of claim 1 , where the first fuel type includes at least some gasoline and the second fuel type includes at least some ethanol. 5. The fuel system of claim 1 , where a first fuel passage fluidly couples the first fuel tank to the group of port fuel injectors, and where a second fuel passage fluidly couples the second fuel tank to the group of direct injectors, and where the high pressure fuel pump communicates with the group of port fuel injectors via a solenoid valve, and where a second low pressure fuel pump is in communication with the second fuel tank and the high pressure fuel pump. 6. A method for an engine fuel system, comprising: supplying a first fuel type solely from a first fuel tank to a second fuel pump inlet while supplying the first fuel type to port fuel injectors via a first fuel pump, an output of the second fuel pump in communication with direct injectors; supplying the first fuel type from the second fuel pump outlet to port fuel injectors; and operating the engine with a turbocharger. 7. The method of claim 6 , where the second fuel pump supplies the first fuel type to the port fuel injectors via a valve coupling the direct injectors to the port fuel injectors. 8. The method of claim 7 wherein a cylinder of the engine is fueled by both a port fuel injector and a direct fuel injector. 9. The method of claim 7 , where the first fuel pump is an electrically powered low pressure fuel pump and where the second fuel pump is a mechanically powered high pressure pump. 10. The method of claim 6 , further comprising deactivating the direct injectors and a third fuel pump. 11. The method of claim 6 , where the first fuel type is supplied to the second fuel pump in response to a temperature of the second fuel pump exceeding a threshold temperature. 12. The method of claim 6 , where the first fuel type is supplied to the second fuel pump in response to a level of a second fuel type in a second fuel tank falling below a threshold level. 13. The method of claim 6 , where the first fuel type of is supplied in response to an engine load. 14. The method of claim 6 , where an output of the first fuel pump is adjusted to provide a fuel pressure to a first rail of the port injectors, the first fuel type being supplied to the port injectors from both the outlet of the second fuel pump and the outlet of the first fuel pump in parallel and concurrently. 15. The method of claim 14 wherein at least some of the fuel from the outlet of the first fuel pump is provided to the fuel injectors by bypassing the second fuel pump. 16. The method of claim 6 wherein the supplying the first fuel type from the second fuel pump outlet to port fuel injectors includes, in response to a surge in cylinder fuel demand, opening a solenoid communication valve between a fuel rail of the port injectors and a fuel rail of the direct injectors to deliver at least some of the first fuel type from the second fuel pump to the port injectors via the solenoid valve so direct injection of the first fuel type is supplemented with port injection of the first fuel type. 17. The method of claim 16 wherein the surge in cylinder fuel demand is during cylinder enrichment. 18. A method for an engine fuel system, comprising: supplying a first fuel type solely from a first fuel tank to a second fuel pump inlet while supplying the first fuel type to port fuel injectors via a first fuel pump, an output of the second fuel pump in communication with direct injectors; supplying the first fuel type from the second fuel pump outlet to port fuel injectors in response to enrichment. 19. The method of claim 18 wherein the supplying the first fuel type from the second fuel pump outlet to the port fuel injectors includes opening communication between the port injectors and the direct injectors in response to a surge in cylinder fuel demand. 20. The method of claim 19 wherein the surge in cylinder fuel demand is during cylinder enrichment.