Fuel system with liquid ring pump with centrifugal air/fuel separator

What is claimed is: 1. A boost pump unit for an aircraft fuel system comprising: a liquid ring pump having an inlet and an outlet; an air/fuel separator having an inlet and first and second outlet ports, the inlet operably fluidly coupled to the outlet of the liquid ring pump, the air/fuel separator having an arcuate flow path extending from the inlet to the first and second outlet ports, wherein the first outlet port is in fluid communication with a radially outer portion of the arcuate flow path and the second outlet port is in fluid communication with a radially inner portion of the arcuate flow path; a return line connected directly to the first outlet port and configured to return fuel to the liquid ring pump. 2. The boost pump unit of claim 1 , further comprising an inlet ejector for providing suction upstream of the liquid ring pump. 3. The boost pump unit of claim 2 , wherein the return line is in fluid communication with the inlet ejector such that flow of fuel through the return line provides a motive flow for the inlet ejector. 4. The boost pump unit of claim 1 , wherein the liquid ring pump is a side channel liquid ring pump. 5. The boost pump unit of claim 1 , wherein the boost pump unit is self-priming and configured to pump air. 6. An engine mounted fuel system for an aircraft having a fuel tank, comprising: a main fuel pump; a boost pump unit for drawing fuel from the fuel tank and operably supplying it to the main fuel pump, the boost pump unit including: a liquid ring pump having an inlet and an outlet; an air/fuel separator having an inlet and first and second outlet ports, the inlet operably fluidly coupled to the outlet of the liquid ring pump, the air/fuel separator having an arcuate flow path extending from the inlet to the first and second outlet ports, wherein the first outlet port is in fluid communication with a radially outer portion of the arcuate flow path and the second outlet port is in fluid communication with a radially inner portion of the arcuate flow path; and a return line connected directly to the first outlet port and configured to return fuel to the liquid ring pump. 7. The fuel system of claim 6 , further comprising an inlet ejector for providing a suction upstream of the liquid ring pump. 8. The fuel system of claim 7 , wherein the return line is in fluid communication with the inlet ejector such that flow of fuel through the return line provides a motive flow for the inlet ejector. 9. The fuel system of claim 6 , wherein the liquid ring pump is a side channel liquid ring pump. 10. The fuel system of claim 6 , further comprising a fuel storage volume downstream from and in fluid communication with the second outlet port. 11. The fuel system of claim 10 , further comprising an air purge valve in communication with the fuel storage volume for purging air from the system after the air has passed through the second outlet port of the air/fuel separator. 12. The fuel system of claim 10 , wherein the fuel storage volume is an interstage fuel filter. 13. The fuel system of claim 6 , wherein the system is free of an airframe mounted boost pump. 14. A method of supplying fuel to a combustor of an aircraft having a fuel tank, the method comprising: drawing fluid from the fuel tank using suction from a boost pump unit including: a liquid ring pump having an inlet and an outlet; an air/fuel separator having an inlet and first and second outlet ports, the inlet operably fluidly coupled to the outlet of the liquid ring pump, the air/fuel separator having an arcuate flow path extending from the inlet to the first and second outlet ports, wherein the first outlet port is in fluid communication with a radially outer portion of the arcuate flow path and the second outlet port is in fluid communication with a radially inner portion of the arcuate flow path; a return line connected directly to the first outlet port and configured to return fuel to the liquid ring pump; and returning fuel from the air/fuel separator to the liquid ring pump through the first outlet port. 15. The method of claim 14 , wherein the boost pump unit includes an inlet ejector, the method further comprising: providing a suction and drawing fluid from the fuel tank using the inlet ejector. 16. The method of claim 15 , wherein the step of returning fuel from the air/fuel separator to the liquid ring pump provides a motive flow for the inlet ejector to create suction. 17. The method of claim 14 , further comprising: supplying an air/fuel mixture to the air/fuel separator from the liquid ring pump; separating the air/fuel mixture into a first portion having a first fuel-to-air ratio and a second portion having second fuel-to-air ratio using the air/fuel separator, the first fuel-to-air ratio being greater than the second fuel-to-air ratio; dispensing the first portion through the first outlet port; and dispensing the second portion through the second outlet port. 18. The method of claim 17 , wherein separating the air/fuel mixture includes passing the air/fuel mixture through the arcuate flow path such that the first portion moves radially outward relative to the second portion. 19. The method of claim 14 , wherein the boost pump unit is an engine mounted boost pump unit. 20. The method of claim 14 , wherein the drawing fluid from the fuel tank is performed without the use of an airframe mounted pump.