Gear pump bearing dam

What is claimed is: 1. A gear pump comprising: a first gear having a first axis, a first gear root diameter, and a plurality of first gear teeth having a gear addendum and a gear set pressure angle; a second gear having a second axis, a second gear root diameter, and a plurality of second gear teeth having the gear addendum and the gear set pressure angle; a housing comprising: a fluid inlet and a fluid discharge; a first gear bearing and a second gear bearing configured to position the first gear and the second gear along a bearing center line extending between the first axis and the second axis on opposite sides of a bearing split line, the bearing split line extending through a midpoint between the first gear root diameter and the second gear root diameter and extending perpendicular to the bearing center line, the first gear bearing and the second gear bearing configured to position the first gear teeth and second gear teeth in intermeshing contact; and, a central fluid dam comprising: a first face arranged at an angle to the bearing split line, spaced apart from the bearing center line at the bearing split line a first distance towards the fluid inlet, formed as a straight edge intersecting the bearing split line and extending from the first gear root diameter away from the bearing center line to the second gear root diameter; a second face arranged approximately perpendicular to the bearing split line, spaced apart from the bearing center line at the bearing split line a second distance towards the fluid outlet, and extending between the first gear root diameter and the second gear root diameter; and a vent formed in the second face proximate the second gear, the vent having a semi-circular cross-section extending into the second face, the vent having a radius approximately tangent to the second gear root diameter, and the vent being spaced apart from the bearing center line toward the fluid discharge a third distance in a range of about 50% to about 75% of a gear addendum. 2. The gear pump of claim 1 , wherein the first distance is in a range of about 35% to about 65% of a gear addendum away from the bearing center line towards the fluid inlet at the bearing split line. 3. The gear pump of claim 2 , wherein the first distance is about 47% of the gear addendum. 4. The gear pump of claim 1 , wherein the angle to the bearing split line ranges from about the angle of the gear set pressure angle plus 5 degrees to about the angle of the gear set pressure angle minus 5 degrees. 5. The gear pump of claim 4 , wherein the angle to the center line is about 25 degrees. 6. The gear pump of claim 1 , wherein the central fluid dam further comprises a slot formed in the first face proximate the first gear, the slot extending approximately tangent to the first gear root diameter toward the fluid discharge, the slot having a slot width in the range of about 15% to about 44.6% of the gear addendum, and the slot having a slot depth in the range of about 15% to about 45% of a gear addendum. 7. The gear pump of claim 6 , wherein the slot depth is about 33% of the gear addendum and the slot width is about 25.3% of the gear addendum. 8. The gear pump of claim 1 , wherein the second distance is in a range of about 90% to about 115% of a gear addendum away from the bearing center line towards the fluid discharge at the bearing split line. 9. The gear pump of claim 8 , wherein the second distance is about 103.21% of the gear addendum. 10. The gear pump of claim 1 , wherein the third distance is about 63% of the gear addendum. 11. A method for pumping a fluid comprising: providing a gear pump comprising: a first gear having a first axis, a first gear root diameter, and a plurality of first gear teeth having a gear addendum and a gear set pressure angle; a second gear having a second axis, a second gear root diameter, and a plurality of second gear teeth having the gear addendum and the gear set pressure angle; a housing comprising: a fluid inlet and a fluid discharge; a first gear bearing and a second gear bearing configured to position the first gear and the second gear along a bearing center line extending between the first axis and the second axis on opposite sides of a bearing split line, the bearing split line extending through a midpoint between the first gear root diameter and the second gear root diameter and extending perpendicular to the bearing center line, the first gear bearing and the second gear bearing configured to position the first gear teeth and second gear teeth in intermeshing contact; and, a central fluid dam comprising: a first face arranged at an angle to the bearing split line, spaced apart from the bearing center line at the bearing split line a first distance towards the fluid inlet, formed as a straight edge intersecting the bearing split line and extending from the first gear root diameter away from the bearing center line to the second gear root diameter; a second face arranged approximately perpendicular to the bearing split line, spaced apart from the bearing center line at the bearing split line a second distance towards the fluid outlet, and extending between the first gear root diameter and the second gear root diameter; and a vent formed in the second face proximate the second gear, the vent having a semi-circular cross-section extending into the second face, the vent having a radius approximately tangent to the second gear root diameter, and the vent being spaced apart from the bearing center line toward the fluid discharge a third distance in a range of about 50% to about 75% of a gear addendum; providing the fluid at the fluid inlet to a collection of tooth spaces; driving the first gear; driving the second gear with the first gear; and urging the movement of the fluid in the collection of tooth spaces from the fluid inlet to the fluid discharge, wherein backflow of the fluid from the fluid discharge to the fluid inlet is impeded by the central fluid dam. 12. The method of claim 11 , wherein the first distance is in a range of about 35% to about 65% of a gear addendum away from the bearing center line towards the fluid inlet at the bearing split line. 13. The method of claim 12 , wherein the first distance is about 47% of the gear addendum. 14. The method of claim 11 , wherein the angle to the bearing split line ranges from about the angle of the gear set pressure angle plus 5 degrees to about the angle of the gear set pressure angle minus 5 degrees. 15. The method of claim 14 , wherein the angle to the center line is about 25 degrees. 16. The method of claim 11 , wherein the central fluid dam further comprises a slot formed in the first face proximate the first gear, the slot extending approximately tangent to the first gear root diameter toward the fluid discharge, the slot having a slot width in the range of about 15% to about 44.6% of the gear addendum, and the slot having a slot depth in the range of about 15% to about 45% of a gear addendum. 17. The method of claim 16 , wherein the slot depth is about 33% of the gear addendum and the slot width is about 25.3% of the gear addendum. 18. The method of claim 11 , wherein the second distance is in a range of about 90% to about 115% of a gear addendum away from the bearing center line towards the fluid discharge at the bearing split line. 19. The method of claim 18 , wherein the second distance is about 103.21% of the gear addendum. 20. The method of claim 11 , wherein the third distance is about 63% of the gear addendum.