Low molecular weight polyacrylates for EOR

The invention claimed is: 1. An improved method of sweeping a reservoir, wherein an injection fluid is injected into a reservoir to mobilize and produce oil, the improvement comprising injecting a composition comprising i) a polyelectrolyte complex nanoparticle having a polyalkylenimine and a polyanion, said nanoparticle having a size of less than one micron, wherein said polyanion is equal to or less than 10,000 Da, plus ii) a polymer, plus iii) a fluid into a reservoir, aging said composition at 65° C. for 4 days before its viscosity increases and becomes a gel injecting additional injection fluid into said reservoir to mobilize oil, and producing said oil. 2. A method of improving sweep efficiency of a fluid flood of a reservoir, said method comprising: a) injecting a composition comprising: i) a delayed gelling agent comprising a polyelectrolyte complex nanoparticle comprising a polyethylenimine of less than 26,000 Da and an ammonium polyacrylate, sodium polyacrylate or potassium polyacrylate of equal to or less than 10,000 Da intimately associated with at least one multivalent cation crosslinker, said nanoparticle having a size of less than one micron, ii) a polymer having anionic sites that can be crosslinked with said at least one multivalent cation crosslinker, and iii) a fluid into a reservoir; b) aging the composition at 65° C. for 4 days before its viscosity increases and becomes a gel; c) injecting an injection fluid into said reservoir to mobilize the oil; and d) producing said mobilized oil. 3. A method of improving sweep efficiency of a fluid flood of a reservoir, said method comprising: a) injecting a composition comprising: i) a delayed gelling agent comprising a polyelectrolyte complex nanoparticle comprising a polyethylenimine of less than 26,000 Da and a sodium, ammonium or potassium polyvinyl sulfonate equal to or less than 10,000 Da intimately associated with at least one multivalent cation crosslinker, said nanoparticle having a size of less than one micron, ii) a polymer having anionic sites that can be crosslinked with said at least one multivalent cation crosslinker, and iii) a fluid into a reservoir; b) aging the composition at 65° C. for 4 days before its viscosity increases and becomes a gel c) injecting an injection fluid into said reservoir to mobilize the oil; and d) producing said mobilized oil. 4. A method of improving sweep efficiency of a fluid flood of a reservoir, said method comprising: a) injecting a composition comprising: i) a delayed gelling agent comprising a polyelectrolyte complex nanoparticle comprising a polyethylenimine of less than 26,000 Da and an ammonium polyacrylate, sodium polyacrylate or potassium polyacrylate of equal to or less than 10,000 Da intimately associated with at least one multivalent cation crosslinker, wherein said multivalent cation crosslinker is Cr(III), Fe(III), or complexes of same, said nanoparticle having a size of less than one micron, ii) a partially hydrolyzed polyacrylamide polymer having anionic sites that can be crosslinked with said at least one multivalent cation crosslinker, and iii) a fluid into a reservoir; b) aging the composition at 65° C. for 4 days before its viscosity increases and becomes a gel; c) injecting an injection fluid into said reservoir to mobilize the oil; and d) producing said mobilized oil.