Fuel delivery system including integrated check valve

The invention claimed is: 1. A fuel delivery system comprising: an elastic fuel line for gasoline or diesel fuel positioned between a first fuel pump and a second fuel pump; and a check valve internally integrated into the elastic fuel line, the check valve including an external housing having a peripheral surface with a greater diameter than an unstretched inner diameter of the elastic fuel line, the external housing having an upstream end and a downstream end, the downstream end spaced away from the elastic fuel line, wherein an elasticity of the elastic fuel line is greater than an elasticity of the check valve, wherein a leading edge of the upstream end has a curved tapered leading surface, where a divergent angle of the curved tapered leading surface extending from the upstream end of the check valve is between 20° and 40° from a central axis, and where the curved tapered leading surface is spaced away from the elastic fuel line and tapers and curves away from an inner surface of the elastic fuel line to a greater degree than the fuel line curves or tapers due to its elastic expansion from the check valve inserted therein, where the elastic fuel line is coupled to a quick connect downstream of the check valve, the quick connect spaced at least 5 millimeters (mm) away from the downstream end of the check valve, the quick connect coupled to the second fuel pump. 2. The fuel delivery system of claim 1 , where the fuel line is a multi-layer fuel line positioned in a vehicle, and wherein the curved tapered leading surface is curved from the most upstream end to an outermost peripheral surface, wherein the second fuel pump is a higher pressure fuel pump than the first fuel pump. 3. The fuel delivery system of claim 2 , where the fuel line is a nylon fuel line. 4. The fuel delivery system of claim 1 , where the check valve includes a plurality of teeth circumferentially extending around an outer surface of the check valve. 5. The fuel delivery system of claim 4 , where the check valve includes weep channels directly connecting upstream and downstream for bleeding a high pressure side back into a low pressure side of the system during non-running conditions. 6. The fuel delivery system of claim 5 , where the diameter of the peripheral surface of the external housing is greater than 105% of the unstretched inner diameter of the fuel line. 7. The fuel delivery system of claim 1 , where the diameter of the peripheral surface of the external housing is between 101% and 140% of the unstretched inner diameter of the fuel line. 8. The fuel delivery system of claim 1 , where the downstream end of the check valve is positioned between 50 mm and 100 mm from an end of the elastic fuel line. 9. The fuel delivery system of claim 1 , where a cross-section of the peripheral surface perpendicular to the central axis of the check valve is circular. 10. A fuel delivery system of a vehicle comprising: an elastic multi-layer fuel line for gasoline or diesel fuel positioned between a lower pressure fuel pump and a higher pressure fuel pump; a check valve internally integrated into the elastic multi-layer fuel line, the check valve including an external housing having a peripheral surface with a greater diameter than an unstretched inner diameter of the elastic multi-layer fuel line and a curved and tapered leading surface, the peripheral surface being an outermost valve surface and in face-sharing contact with the elastic multi-layer fuel line, wherein the curved and tapered leading surface is formed at a divergent angle extending from an upstream end of the check valve between 20° and 40°, and where the curved and tapered leading surface is spaced away from the elastic fuel line and tapers and curves away from an inner surface of the elastic fuel line to a greater degree than the fuel line curves due to its elastic expansion from the check valve inserted therein, where the elastic fuel line is coupled to a quick connect downstream of the check valve, the external housing further comprising a downstream peripheral surface not in face-sharing contact with the elastic multi-layer fuel line, wherein an elasticity of the elastic multi-layer fuel line is greater than an elasticity of the check valve; and a direct fuel injector in fluidic communication with the higher pressure fuel pump and directly coupled to a cylinder. 11. The fuel delivery system of claim 10 , where the diameter of the peripheral surface of the external housing is between 101% and 140% of the unstretched inner diameter of the fuel line. 12. The fuel delivery system of claim 11 , where the check valve includes weep channels directly connecting upstream and downstream for bleeding a high pressure side back into a low pressure side of the system during non-running conditions. 13. The fuel delivery system of claim 12 , where a ratio of an outer diameter of the upstream end of the check valve and the diameter of the peripheral surface is 1.2 to 1.4. 14. The fuel delivery system of claim 13 , where the diameter of the peripheral surface of the external housing is less than 5% of maximum threshold stretch of the elastic multi-layer fuel line. 15. The fuel delivery system of claim 14 , where the elasticity of the elastic multi-layer fuel line is greater than the elasticity of the check valve. 16. A method for operation of a fuel delivery system of a vehicle, comprising: attenuating pressure pulsations travelling from a higher pressure fuel pump to a lower pressure fuel pump via a check valve internally integrated into an elastic multi-layer gasoline fuel line between the higher pressure fuel pump and the lower pressure fuel pump, the check valve including an external housing having a first peripheral surface with a greater diameter than an unstretched inner diameter of the elastic multi-layer gasoline fuel line and a second peripheral surface not coupled to the elastic multi-layer gasoline fuel line and including a leading edge of an upstream end having a curved tapered leading surface, where a divergent angle of the curved tapered leading surface extending from the upstream end of the check valve is between 20° and 40°, and where the curved tapered leading surface is spaced away from the elastic fuel line and tapers away from an inner surface of the elastic fuel line even where the fuel line narrows due to its elastic expansion from the check valve inserted therein, where the elastic fuel line is coupled to a quick connect downstream of the check valve, wherein an elasticity of the elastic multi-layer gasoline fuel line is greater than an elasticity of the check valve. 17. The method of claim 16 , where the check valve is configured to enable fuel flow therethrough when a fuel pressure in the elastic multi-layer fuel line exceeds about 10 kpa.