Fuel system with a fuel pump control module and a heat sink

We claim: 1. A fuel system for an internal combustion engine, said fuel system comprising: an electric fuel pump; a conduit which defines a flow path through which fuel flows from said electric fuel pump to said internal combustion engine; a fuel pump control module with electronics which drive said electric fuel pump, said fuel pump control module being disposed within a compartment defined by a wall; and a heat sink in thermal contact with said fuel pump control module and extending out of said compartment through an aperture of said wall and into said flow path such that said heat sink is sealed to said wall, thereby preventing fluid communication through said aperture; wherein said heat sink includes a main body such that the circumference of said main body is in intimate, uninterrupted circumferential contact with said aperture, thereby preventing fluid communication through said aperture; and wherein said main body defines a plurality of alternating annular ribs and annular grooves such that said annular grooves are filled by said wall, thereby forming a tortuous path between said heat sink and said aperture. 2. A fuel system for an internal combustion engine, said fuel system comprising: an electric fuel pump; a conduit which defines a flow path through which fuel flows from said electric fuel pump to said internal combustion engine; a fuel pump control module with electronics which drive said electric fuel pump, said fuel pump control module being disposed within a compartment defined by a wall; and a heat sink in thermal contact with said fuel pump control module and extending out of said compartment through an aperture of said wall and into said flow path such that said heat sink is sealed to said wall, thereby preventing fluid communication through said aperture; wherein: said heat sink includes a main body such that the circumference of said main body is in intimate, uninterrupted circumferential contact with said aperture, thereby preventing fluid communication through said aperture; said heat sink extends along a heat sink axis; said heat sink includes a first heat sink flange which extends radially outward from said main body; said heat sink includes a second heat sink flange which extends radially outward from said main body; and said wall is captured axially between said first heat sink flange and said second heat sink flange. 3. A fuel system as in claim 2 wherein said first heat sink flange is located within said compartment and contacts said fuel pump control module. 4. A fuel system for an internal combustion engine, said fuel system comprises: an electric fuel pump; a conduit which defines a flow path through which fuel flows from said electric fuel pump to said internal combustion engine; a fuel pump control module with electronics which drive said electric fuel pump, said fuel pump control module being disposed within a compartment defined by a wall; and a heat sink in thermal contact with said fuel pump control module and extending out of said compartment through an aperture of said wall and into said flow path such that said heat sink is sealed to said wall, thereby preventing fluid communication through said aperture; wherein said conduit comprises: a fuel pump outlet tube; an engine supply tube; and a tubing connector which provides fluid communication from said fuel pump outlet tube to said engine supply tube, said tubing connector comprising: a tubing connector inlet port which receives fuel from said fuel pump outlet tube; a tubing connector outlet port which communicates fuel to said engine supply tube; and a tubing connector heat sink port which receives a portion of said heat sink, thereby placing said heat sink in direct contact with fuel that is flowing from said fuel pump outlet tube to said engine supply tube within said tubing connector. 5. A fuel system as in claim 4 wherein said heat sink include and O-ring groove within which an O-ring is disposed such that said O-ring is radially compressed between said heat sink and said tubing connector heat sink port. 6. A fuel system as in claim 4 wherein: said heat sink includes a retention groove; said tubing connector heat sink port includes opposing slots; and a retention clip extends through said slots and into said retention groove, thereby retaining said heat sink to said tubing connector. 7. A fuel system as in claim 4 further comprising: a fuel tank configured to hold a volume of fuel to be pumped by said electric fuel pump, said electric fuel pump being disposed within said fuel tank, and said fuel tank having a fuel tank opening therein which accommodates insertion of said electric fuel pump within said fuel tank; and a cover which closes off said fuel tank opening; wherein said cover defines said wall. 8. A fuel system as in claim 7 wherein said tubing connector is disposed within said fuel tank. 9. A fuel system as in claim 4 further comprising a fuel pressure sensor; wherein said tubing connector further comprises a tubing connector pressure sensor port such that a pressure sensor tube connected to said tubing connector pressure sensor port places said fuel pressure sensor in fluid communication with said flow path. 10. A fuel system as in claim 4 wherein said heat sink is sealed to said heat sink port. 11. A fuel system as in claim 4 wherein said tubing connector does not engage said wall.