Progressive tank system and method for using the same

We claim: 1. A system for hydrating a dry polymer, comprising: a tank assembly having a plurality of mixing chambers, wherein adjacent mixing chambers are operatively coupled by an under-over baffle, and wherein each of the plurality of mixing chambers comprises an open interior bounded by a plurality of walls having a generally rectangular configuration, wherein adjacent walls are coupled by rounded corners; the plurality of mixing chambers and the under-over baffle further comprising: a first mixing chamber comprising: a polymer inlet through which wetted polymer is provided to the first mixing chamber; a first baffle net defined in a lower portion of a back wall of the first mixing chamber; a first mixing device comprising a roller configured to circulate fluid in a vertical direction; and a second mixing chamber comprising: a first baffle outlet defined in an upper portion of a front wall of the second mixing chamber; a second baffle net defined in a lower portion of a back wall of the second mixing chamber; and a second mixing device comprising an impeller configured to circulate fluid in a horizontal direction; and a first fluid conduit extending between the first baffle inlet and the first baffle out operatively coupling the first mixing chamber to the second mixing chamber. 2. The system of claim 1 , wherein the plurality of walls and rounded corners comprise: a rectangular front wall; a first side wall oriented substantially perpendicularly to the front wall; a first curved corner wall extending between a first edge of the front wall and a first edge of the first side wall; a second side wall oriented substantially perpendicularly to the front wall; a second curved corner wall extending between a second edge of the front wall and a first edge of the second side wall; a rectangular back wall parallel to the front wall; a third curved corner wall extending between a first edge of the back wall and a second edge of the first side wall; a fourth curved corner wall extending between a second edge of the back wall and a second edge of the second side wall; and a lower wall coupled to a lower end of each of the front wall, the back wall, and the side walls, wherein the lower wall is oriented substantially perpendicularly to the front, back, and side walls. 3. The system of claim 2 , wherein the first fluid conduit comprises an open interior region partially enclosed by an outside surface of the back wall of the first mixing chamber, an outside surface of the front wall of the second mixing chamber, two parallel opposed side baffle wads, an upper baffle wall, and a lower baffle wall. 4. The system of claim 2 , wherein the first baffle inlet comprises an opening having a first end and a second end, wherein the first end is disposed at or near the first edge of the back wall, and wherein the second end is disposed at or near the second edge of the back wall. 5. The system of claim 4 , wherein the opening has a rectangular shape or an elliptical shape. 6. The system of claim 4 , wherein a size of the opening is adjustable. 7. The system of claim 2 , further comprising a level sensor operatively coupled to the first mixing chamber, wherein the level sensor is configured to determine a level of a polymer solution in the first mixing chamber. 8. The system of claim 7 , further comprising a controller configured to control one or more operations performed by the system, wherein the level sensor is further configured to communicate the determined level of the polymer solution in the first mixing chamber to the controller. 9. The system of claim 8 , wherein the controller is further configured to implement a feedback control loop based at least in part on the determined level of the polymer solution in the first mixing chamber, wherein the feedback control loop is used to adjust a rate at which the wetted polymer is added to the first mixing chamber. 10. The system of claim 1 , wherein the first mixing device is configured to mix the volume of polymer solution more aggressively than the second mixing device. 11. A method of hydrating a dry polymer, using a plurality of mixing chambers, wherein adjacent mixing chambers are operatively coupled by an under-over baffle, and wherein each of the plurality of mixing chambers comprises an open interior bounded by a plurality of walls having a generally rectangular configuration, wherein adjacent walls are coupled by rounded corners, the method comprising: providing a volume of fluid to a First mixing chamber of the plurality of mixing chambers; providing un-hydrated wetted polymer particles to the first mixing chamber to create a volume of polymer solution; rolling, using a first mixing device disposed in the first mixing chamber, the volume of polymer solution to circulate the volume of polymer solution in a vertical direction; moving the volume of polymer solution from the first mixing chamber into a baffle via a baffle inlet, wherein the baffle inlet is defined in a lower portion of a back wall of the first mixing chamber; moving the volume of polymer solution through the baffle and into a second mixing chamber of the plurality of mixing chambers via a baffle outlet, wherein the baffle outlet is defined in an upper portion of a front wall of the second mixing chamber; and stirring, using a second mixing device disposed in the second mixing chamber, the volume of polymer solution to circulate the volume of polymer solution in a horizontal direction. 12. The method of claim 11 , the baffle comprising an open interior region partially enclosed by an outside surface of the back wall of the first mixing chamber, an outside surface of the front wall of the second mixing chamber, two parallel opposed side baffle walls, an upper baffle wall, and a lower baffle wall. 13. A system for hydrating a dry polymer, comprising: a polymer wetting device configured to dispense a measured amount of a wetted polymer; a tank assembly having a plurality of mixing chambers, wherein adjacent mixing chambers are operatively coupled by an under-over baffle, and wherein each of the plurality of mixing chambers comprises an open interior bounded by four walls wherein adjacent walls are coupled by rounded corners, the plurality of mixing chambers comprising at least a first mixing chamber and a last mixing chamber, wherein the polymer wetting device is coupled to the first mixing chamber and configured to dispense the measured amount of the wetted polymer into the first mixing chamber; a first mixing device disposed within at least one of the plurality of mixing chambers comprising a roller configured to circulate fluid in a vertical direction and a second mixing device disposed within at least one of the plurality of mixing chambers comprising an impeller configured to circulate fluid in a horizontal direction; a hydrated polymer discharge mechanism configured to discharge the hydrated polymer from the last mixing chamber; and a controller configured to control operation of at least one of the polymer wetting device, the hydrated polymer discharge mechanism, and the first mixing device and second mixing device.