Oil pump for an aged engine

What is claimed is: 1. An oil pump for an engine, comprising: a first pump mechanism, located in a first housing, configured to supply oil to a main lubrication gallery of the engine; a second pump mechanism, located in a second housing, configured to supply oil to a piston cooling gallery of the engine; a separation plate disposed between the first housing and the second housing; and a spacer plate associated with the second pump mechanism abutting the separation plate, the first pump mechanism being designed for a first type of engine and the second pump mechanism being designed for a second type of engine, the first type of engine having a greater quantity of cylinders than the second type of engine. 2. The oil pump of claim 1 , wherein the first type of engine has a greater maximum power output than the second type of engine. 3. The oil pump of claim 1 , wherein the first type of engine has greater than 16 cylinders, and the second type of engine has 16 cylinders or fewer. 4. The oil pump of claim 1 , wherein the first pump mechanism is a first set of gears comprising a first and second drive gear, and the second pump mechanism is a second set of gears comprising a third drive gear. 5. The oil pump of claim 4 , wherein the first and second drive gear has a greater gear width than the third drive gear. 6. The oil pump of claim 4 , wherein the first set of gears includes 4 gears, and the second set of gears includes 2 gears. 7. The oil pump of claim 1 , wherein the first pump mechanism has a capacity designed for the first type of engine, and the second pump mechanism has a capacity designed for the second type of engine. 8. The oil pump of claim 1 , wherein the first pump mechanism has a greater flow rate than the second pump mechanism. 9. The oil pump of claim 1 , wherein a flow rate of the first pump mechanism is in a range from 260-300 gallons per minute (GPM) and a flow rate of the second pump mechanism is in a range from 80-120 GPM. 10. The oil pump of claim 1 , wherein a ratio of a flow rate of the first pump mechanism to a flow rate of the second pump mechanism is in a range from 2.5:1 to 4:1. 11. An engine, comprising: a main engine component that is supplied oil by a main lubrication gallery; a piston-cylinder component that is supplied oil by a piston cooling gallery; and an oil pump having: a first pump mechanism configured to supply oil to the main lubrication gallery, a second pump mechanism configured to supply oil to the piston cooling gallery, the first pump mechanism located in a first housing and the second pump mechanism located in a second housing, a separation plate disposed between the first housing and the second housing; and a spacer plate associated with the second pump mechanism abutting the separation plate, the first pump mechanism being designed for another type of engine and the second pump mechanism being designed for the engine, the other type of engine having a greater quantity of cylinders than the engine. 12. The engine of claim 11 , wherein the first pump mechanism is a first set of gears, and the second pump mechanism is a second set of gears. 13. The engine of claim 12 , wherein a ratio of a gear width of the first set of gears to a gear width of the second set of gears is in a range from 2.75:1 to 3.25:1. 14. The engine of claim 11 , wherein parts of a crankshaft of the main engine component have greater clearances than the parts of the crankshaft had prior to use of the engine. 15. The engine of claim 11 , wherein the engine has 16 cylinders or fewer, and the other type of engine has greater than 16 cylinders. 16. A lubrication system for an engine, comprising: a main lubrication gallery configured to supply oil to a main engine component of the engine; a piston cooling gallery configured to supply oil to a piston-cylinder component of the engine; an oil pump having: a first pump mechanism, located in a first housing, configured to supply oil to the main lubrication gallery, a second pump mechanism, located in a second housing, configured to supply oil to the piston cooling gallery, a separation plate disposed between the first housing and the second housing; and a spacer plate associated with the second pump mechanism abutting the separation plate, the first pump mechanism being designed for a first type of engine and the second pump mechanism being designed for a second type of engine, the first type of engine having a greater quantity of cylinders than the second type of engine; and a scavenge pump configured to return spent oil to the oil pump, the scavenge pump being designed for the second type of engine. 17. The lubrication system of claim 16 , wherein the scavenge pump has a greater flow rate than a combination of the first pump mechanism and the second pump mechanism. 18. The lubrication system of claim 16 , wherein the scavenge pump has a flow rate that is at least 5% greater than a combination of the first pump mechanism and the second pump mechanism. 19. The lubrication system of claim 16 , wherein a ratio of a flow rate of the first pump mechanism to a flow rate of the second pump mechanism is in a range from 2.5:1 to 4:1. 20. The lubrication system of claim 16 , wherein the first type of engine has greater than 16 cylinders, and the second type of engine has 16 cylinders or fewer.