Systems and methods for dosing slurries to remove suspended solids

What is claimed is: 1. A system for dosing a slurry to remove suspended solids, the system comprising: a mix tank; an electroacoustic zeta potential sensor in fluid communication with the mix tank; a coagulant feed system for adding coagulant to the mix tank, the coagulant feed system being in fluid communication with the mix tank, the coagulant feed system comprising: a coagulant feed tank; a plurality of coagulant feed ports; and a coagulant control system, the coagulant control system comprising a controller communicatively coupled to the coagulant feed system and configured to terminate coagulant addition based on a zeta potential parameter. 2. The system as set forth in claim 1 wherein the zeta potential parameter is the sign or magnitude of the zeta potential, the controller being configured to terminate coagulant addition based on a change in the sign or magnitude of the zeta potential parameter. 3. The system as set forth in claim 1 wherein the coagulant feed system further comprises a coagulant feed pump and valve to control coagulant addition, the coagulant control system being communicatively coupled to the coagulant feed pump to control coagulant addition to the mix tank. 4. The system as set forth in claim 1 wherein the system is a mobile system to allow the system to be transported to different sites, the mobile system: comprising tires or tracks to move the system to different sites; and/or being supported by a frame or skid that allows the system to be loaded or unloaded from a transport vehicle. 5. The system as set forth in claim 1 further comprising: a flocculant feed system, the flocculant feed system comprising a flocculant pump in fluid communication with the mix tank; a flocculant control system communicatively coupled to the flocculant feed system; and an interface sensor for sensing a solid-liquid interface in the mix tank, the interface sensor being communicatively coupled to the flocculant control system to control the amount of flocculant added to the mix tank by the flocculant feed system. 6. The system as set forth in claim 1 comprising a water feed system for adding water to the mix tank to dilute the slurry. 7. The system as set forth in claim 1 wherein the mix tank includes an adjustable weir to allow supernatant water to be decanted. 8. A system for dosing a slurry to remove suspended solids, the system comprising: a coagulant feed system for adding coagulant to a slurry, the coagulant feed system comprising: a coagulant mixing vessel; a first coagulant feed port formed in the coagulant mixing vessel; a first zeta potential sensor upstream of the first coagulant feed port, a first mixing zone of the coagulant mixing vessel being defined between the first coagulant feed port and the first zeta potential sensor; a second coagulant feed port formed in the coagulant mixing vessel; and a second zeta potential sensor downstream of the second coagulant feed port, a second mixing zone of the coagulant mixing vessel being defined between the second coagulant feed port and the second zeta potential sensor; one or more coagulant feed pumps in fluid communication with the first and second coagulant feed ports; and a coagulant control system, the coagulant control system comprising a controller configured to control coagulant addition based on a zeta potential parameter sensed by the first and/or second zeta potential sensor. 9. The system as set forth in claim 8 wherein the coagulant feed system comprises: a third coagulant feed port; and a third zeta potential sensor downstream of the third coagulant feed port, a third mixing zone of the coagulant mixing vessel being defined between the third coagulant feed port and the third zeta potential sensor. 10. The system as set forth in claim 8 further comprising: a flocculant feed system comprising a flocculant mix tank; and a flocculant control system communicatively coupled to the flocculant feed system. 11. A method for dewatering earthen slurries, the method comprising: ejecting slurry from a slurry transport vehicle into a pretreatment system to remove an initial amount of solids from the slurry and produce a solids-depleted slurry; introducing the solids-depleted slurry into a system comprising: a mix tank; an electroacoustic zeta potential sensor in fluid communication with the mix tank; a coagulant feed system for adding coagulant to the mix tank, the coagulant feed system being in fluid communication with the mix tank, the coagulant feed system comprising: a coagulant feed tank; a plurality of coagulant feed ports; and a coagulant control system, the coagulant control system comprising a controller communicatively coupled to the coagulant feed system and configured to terminate coagulant addition based on a zeta potential parameter; adding coagulant to the solids-depleted slurry in the mix tank via the coagulant feed system to change the zeta potential of the slurry; and adding flocculant to the solids-depleted slurry in the mix tank to agglomerate suspended solids and form an agglomerated suspension; and separating solids from the agglomerated suspension. 12. The method as set forth in claim 11 wherein the slurry transport vehicle is a first vehicle and the slurry is a first slurry, the method further comprising: ejecting a second slurry from a second slurry transport vehicle into the pretreatment system to remove an initial amount of solids from the slurry and produce a second solids-depleted slurry; introducing the second solids-depleted slurry into the mix tank; adding coagulant and flocculant to the second solids-depleted slurry in the mix tank to agglomerate suspended solids and form an agglomerated suspension; and separating solids from the agglomerated suspension. 13. The method as set forth in claim 11 wherein the solids are separated by sedimentation, centrifugation, filtration or by thermal drying. 14. The method as set forth in claim 11 wherein the zeta potential parameter is the sign of the zeta potential or the magnitude of the zeta potential. 15. The method as set forth in claim 11 wherein coagulant is added in two or more doses, the method comprising measuring the zeta potential after each dose is added to determine if the zeta potential is reduced to an amount within a set point range, wherein coagulant addition is terminated after the zeta potential is within the set point range. 16. The method as set forth in claim 11 further comprising diluting the slurry by adding water to the mix tank. 17. The method as set forth in claim 11 wherein the slurry added to the mix tank is a first slurry and the coagulant added to mix tank is a coagulant first portion, the first slurry being added to the mix tank to form a first slurry batch, the method further comprising: discharging a treated first slurry batch from the mix tank; adding a second slurry to the mix tank to form a second slurry batch; adding a coagulant second portion to the mix tank; monitoring the magnitude of the zeta potential during addition of the coagulant second portion; and terminating addition of coagulant second portion to the mix tank when the magnitude of the zeta potential is within a set point range. 18. The method as set forth in claim 11 further comprising: monitoring a solid-liquid interface by an interface sensor during flocculant addition; and terminating flocculant addition based on output from the interface sensor. 19. The method as set forth in claim 11 wherein the mix tank is recircu