Retort fluid suction system

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A fluid suction system for a first retort having a vessel with a vessel length, pooled fluid at a bottom of the vessel defining a fluid surface level, and a retort vessel outlet placing the vessel in fluid communication with a pump, the fluid suction system comprising an elongated manifold having a length for placement along the bottom of the vessel in fluid communication with the retort vessel outlet, wherein the pooled fluid flows into and through the elongated manifold when the pooled fluid is suctioned by the pump, and wherein the fluid surface level of the pooled fluid inside the vessel remains substantially even along the length of the elongated manifold as the pooled fluid is suctioned by the pump at a selected flow rate that is substantially higher than what gravity would otherwise provide to remove the pooled fluid from the bottom of the vessel, wherein the elongated manifold has a hollow body with a length, wherein the body includes an intermediate section and first and second end sections, a body outlet opening in fluid communication with the retort vessel outlet, and a plurality of suction openings defined along at least a portion of the length of the body that are in fluid communication with the pooled fluid at the bottom of the vessel, and wherein at least one of a cross-sectional size of the elongated body decreases as it extends from the intermediate section toward both the first and second ends sections and the suction openings in the body are smaller in size near the body outlet opening in comparison to the suction openings near the first and second end sections such that substantially even suction flow into the body results along the length of the elongated manifold as the pooled fluid is suctioned by the pump. 2. The system of claim 1 , wherein the body has a bottom surface, and wherein the suction openings are defined in the bottom surface. 3. The system of claim 2 , wherein the bottom surface of the body is spaced from a bottom surface of the vessel such that the pooled fluid may flow between the body and the vessel. 4. The system of claim 1 , wherein the suction openings in the body are spaced farther apart near the body outlet opening than the suction openings near the first and second end sections. 5. The system of claim 1 , wherein the first and second end sections taper in at least height as they extend from the intermediate section. 6. The system of claim 1 , wherein the body has at least one side surface, and wherein the suction openings are defined in the at least one side surface. 7. The system of claim 1 , wherein the elongated manifold is placed within the interior of the vessel. 8. The system of claim 1 , wherein the selected flow rate is sufficiently high to cause a significant gradient effect in a second retort having an outlet with no elongated manifold. 9. The system of claim 8 , wherein the pooled fluid is at a minimum fluid volume within the vessel to flow into and through the elongated manifold when the pooled fluid is suctioned by the pump without causing any air entrainment or cavitation within the pump. 10. The system of claim 1 , wherein a flow of the pooled fluid into each of the suction openings is substantially even. 11. The system of claim 1 , wherein a variation in fluid surface level of the pooled fluid is within a range of about 1.14 inches between a highest water level point and a lowest water level point. 12. The system of claim 1 , wherein the first retort is a 1800 mm diameter retort, the selected flow rate is around 1500 gallons per minute, and wherein the first retort is a 1400 mm diameter retort, the selected flow rate is around 225 m 3 /hr. 13. A fluid retort system, comprising: a vessel with a vessel length; pooled fluid at a bottom of the vessel defining a fluid surface level; a retort vessel outlet placing the vessel in fluid communication with a pump; and a fluid suction system comprising an elongated manifold having a length and configured for placement along the bottom of the vessel in fluid communication with the retort vessel outlet, wherein the pooled fluid flows into and through the manifold when the pooled fluid is suctioned by the pump, and wherein the fluid surface level of the pooled fluid remains substantially even along the length of the elongated manifold as the pooled fluid inside the vessel is suctioned by the pump at a selected flow rate that is substantially higher than what gravity would otherwise provide to remove the pooled fluid from the bottom of the vessel, wherein the elongated manifold has a hollow body with a length, wherein the body includes an intermediate section and first and second end sections, a body outlet opening in fluid communication with the retort vessel outlet, and a plurality of suction openings defined along at least a portion of the length of the body that are in fluid communication with the pooled fluid at the bottom of the vessel, and wherein at least one of a cross-sectional size of the elongated body decreases as it extends from the intermediate section toward both the first and second ends sections and the suction openings in the body are smaller in size near the body outlet opening in comparison to the suction openings near the first and second end sections such that substantially even suction flow into the body results along the length of the elongated manifold as the pooled fluid is suctioned by the pump. 14. A fluid suction system for a first retort having a vessel with a vessel length, pooled fluid at a bottom of the vessel defining a fluid surface level, the fluid suction system comprising an elongated manifold having a length for placement along a bottom of the vessel, wherein the pooled fluid flows into and through the elongated manifold when the pooled fluid is suctioned by a pump, and wherein the fluid surface level of the pooled fluid inside the vessel remains substantially even along the length of the elongated manifold as the pooled fluid is suctioned by the pump at a selected flow rate that is substantially higher than what gravity would otherwise provide to remove the pooled fluid from the bottom of the vessel, wherein the elongated manifold has a hollow body with a length, wherein the body includes an intermediate section and at least one end section and a plurality of suction openings defined along at least a portion of the length of the body that are in fluid communication with the pooled fluid at the bottom of the vessel, and wherein at least one of a cross-sectional size of the elongated body decreases as it extends from the intermediate section toward the at least one end section and the suction openings in the body are smaller in size near the intermediate section in comparison to the suction openings near the at least one end section such that substantially even suction flow into the body results along the length of the elongated manifold as the pooled fluid is suctioned by the pump.