Processes for chemical dosing prior to the pad

What is claimed is: 1 . A process comprising: adding a chemical composition to a produced water mixture upstream of a pad related to a well to be fracked; transferring the produced water mixture comprising the added chemical composition in a pipeline to the well to be fracked; wherein the added chemical composition comprises a drag reducing agent, or a biocide, or a scale inhibitor, or any combination thereof; wherein the added chemical composition comprises a concentration of the drag reducing agent determined based on a drag reduction parameter ΔB for the produced water mixture wherein the drag reduction parameter ΔB is defined by an equation: ΔB=ΔB max B N wherein B N =0 for Wi≤1 and B N =CDF for 0<B N ≤1 where ΔB max is maximum drag reduction at Wi»1, B N is normalized drag reduction as a function of shear, Wi={dot over (γ)} w λ is Weissenberg number, {dot over (γ)} w is the wall shear rate, λ is the longest relaxation time, and CDF is a cumulative distribution function. 2 . The process of claim 1 which further comprises fracking the well using at least a portion of the transferred produced water mixture comprising the added chemical composition. 3 . The process of claim 2 wherein an average pressure employed during the fracking is lower than a comparable fracking that employs a transferred produced water mixture lacking the added chemical composition. 4 . The process of claim 1 wherein the added chemical composition comprises a concentration of drag reducing agent such that pipeline friction loss during the transferring is reduced by at least about 10% as compared to a transfer of a comparable volume of a produced water mixture lacking the drag reducing agent over a comparable distance in a comparable pipeline. 5 . The process of claim 1 wherein energy for transferring the produced water mixture is supplied by a pump fuel comprising diesel and wherein the added chemical composition comprises a concentration of drag reducing agent such that amount of diesel used during the transferring is reduced by at least about 10% as compared to a transfer of a comparable volume of a produced water mixture lacking the drag reducing agent over a comparable distance in a comparable pipeline. 6 . The process of claim 5 wherein a carbon dioxide emission associated with the transferring is reduced by about 10 Kg or more of carbon dioxide per gallon of diesel used during the transferring. 7 . The process of claim 1 wherein the added chemical composition comprises a concentration of biocide such that bacterial activity in the produced water mixture comprising the added chemical composition is reduced by about 90% or more as compared to a produced water mixture lacking the biocide. 8 . The process of claim 1 wherein the added chemical composition comprises the drag reducing agent and wherein the process further comprises adding an amount of a second drag reducing agent to the transferred produced water mixture; wherein the adding of the amount of the second drag reducing agent to the transferred produced water mixture is done at or near the pad and wherein the second drag reducing agent is the same or different than the drag reducing agent of the added chemical composition. 9 . The process of claim 8 wherein the concentration of the second drag reducing agent is determined based on a drag reduction parameter ΔB for the transferred produced water mixture wherein the drag reduction parameter ΔB is defined by an equation: ΔB=ΔB max B N wherein B N =0 for Wi≤1 B N =CDF for 0<B N ≤1 where ΔB max is the maximum drag reduction at Wi»1, B N is the normalized drag reduction as a function of shear, Wi={dot over (γ)} w λ is Weissenberg number, {dot over (γ)} w is the wall shear rate, λ is the longest relaxation time, and CDF is a cumulative distribution function. 10 . The process of claim 1 wherein the chemical composition is added to the produced water mixture in a pipeline. 11 . The process of claim 1 wherein the chemical composition is added to the produced water mixture in one or more tanks. 12 . The process of claim 1 wherein the chemical composition is added to the produced water mixture in one or more ponds. 13 . The process of claim 1 wherein the chemical composition comprises the drag reducing agent and the biocide. 14 . The process of claim 13 wherein the drag reducing agent and the biocide are added separately to the produced water mixture. 15 . The process of claim 13 wherein the drag reducing agent and the biocide are added to the produced water mixture together. 16 . The process of claim 13 wherein the drag reducing agent and the biocide are added to the produced water mixture in a pipeline and wherein the drag reducing agent and the biocide are added separately. 17 . The process of claim 1 which further comprises adding water to the produced water mixture. 18 . The process of claim 17 wherein the adding of water to the produced water mixture is prior to the adding of the chemical composition. 19 . The process of claim 17 wherein the adding of water to the produced water mixture is after the adding of the chemical composition. 20 . The process of claim 17 wherein the water added to the produced water mixture is from a pond or a tank. 21 . The process of claim 17 wherein the water added to the produced water mixture is brackish water. 22 . The process of claim 1 wherein the chemical composition comprises the drag reducing agent, the biocide, and the scale inhibitor and wherein the drag reducing agent, the biocide, and the scale inhibitor are added to the produced water mixture in a pipeline and wherein the drag reducing agent, the biocide, and the scale inhibitor are added separately. 23 . The process of claim 1 , wherein the drag reduction parameter ΔB max for the produced water mixture is from about 10 to about 70 wherein ΔB max is the maximum drag reduction at Wi»1 wherein Wi={dot over (γ)} w λ and wherein Wi is Weissenberg number, {dot over (γ)} w λ is the wall shear rate, and λ is the longest relaxation time.