Coagulant blend in SAGD water treatment

The invention claimed is: 1. A method for treating water, comprising the steps of: a) obtaining water from an underground hydrocarbon-containing formation during SAGD oil recovery performed on said underground formation, wherein said water contains hardness, and optionally de-oiling said water; b) combining a high charge density polyamine and a low charge density poly(diallylmethyl ammonium chloride) (poly-DADMAC) to form a coagulant, wherein said low charge density is less than 1 meq/g and said high charge density is about or greater than 2.5 meq/g; c) injecting said water, coagulant, and a lime solution into a solids-contact gravity clarifier; d) performing a warm lime softening reaction in said solids-contact gravity clarifier to treat said water and to form precipitated solids; e) injecting a flocculant into said solids-contact gravity clarifier and flocculating said precipitated solids; f) filtering said precipitated solids to form a treated water; and, g) injecting said treated water into a boiler to make steam for said SAGD oil recovery. 2. The method of claim 1 , step f) further comprising the step of treating said water with a weak acid cation exchanger. 3. The method of claim 1 , wherein said poly-DADMAC has a molecular weight that is ten times the molecular weight of said polyamine. 4. The method of claim 1 , said coagulant comprising two-thirds poly-DADMAC and one-third polyamine. 5. The method of claim 1 , wherein said injection step c) comprises injecting 50 ppm of said poly-DADMAC and 10-20 ppm of said polyamine. 6. A method for treating produced water for SAGD operations, comprising: a) mixing a produced water stream with an optional makeup water, an optional steam generator blowdown stream, and an optional a warm lime softener unit regeneration stream in a first vessel at a known and constant ratio to form a water mixture; b) combining a high charge density polyamine and a low charge density poly(diallylmethyl ammonium chloride) (poly-DADMAC) in a second vessel to form a coagulant, wherein said low charge density is less than 1 meq/g and said high charge density is about or greater than 2.5 meq/g; c) introducing said water mixture and said coagulant into a warm lime softener unit, said unit comprising a warm lime softener, an ion exchanger, and at least one filter in fluid communication, wherein said warm lime softener unit has an outlet for a warm lime softener unit regeneration stream, an inlet for said water mixture and coagulant, and an inlet for softening chemicals, wherein said warm lime softener unit is fluidly connected to said first and second vessel; d) mixing said water mixture and said coagulant with said softening chemicals in said warm lime softener to form a softened mixture; e) treating the softened mixture with an ion exchanger and at least one filter to form a treated saline water stream; and, f) feeding said treated saline water stream into a steam generator. 7. The method of claim 6 , wherein said poly-DADMAC has a molecular weight that is ten times the molecular weight of said polyamine. 8. The method of claim 6 , said softened mixture comprises about 50 ppm of said poly-DADMAC and about 10-20 ppm of said polyamine.