Proppant treatments for mitigating erosion of equipment in subterranean fracturing operations

What is claimed is: 1. A method comprising: conveying a plurality of coated proppant particulates into a blender, wherein the coated proppant particulates comprise at least a partial coating of a dry friction reducer (DFR); blending the plurality of coated proppant particulates with an aqueous base fluid in the blender to form a treatment fluid; and introducing the treatment fluid from the blender into at least a portion of a subterranean formation, wherein forming the coated proppant particulates comprises (i) mixing the DFR with a plurality of particulates of the proppant to form a solids mixture; and combining the solids mixture with an amount of water to form the coated proppant particulates comprising the at least the partial coating of the DFR; or (ii) wetting a plurality of particulates of the proppant with an amount of water to form a wetted proppant and combining the wetted proppant with the DFR to form the coated proppant particulates comprising the at least the partial coating of the DFR. 2. The method of claim 1 , wherein the subterranean formation includes at least one fracture. 3. The method of claim 1 , wherein the treatment fluid is introduced into at least a portion of the subterranean formation using one or more pumps. 4. The method of claim 1 further comprising, after the introducing the treatment fluid into at least a portion of the subterranean formation: allowing at least a portion of the DFR of the coated proppant particulates to detach from the proppant particulates and disperse into the treatment fluid. 5. The method of claim 1 wherein the viscosity of the treatment fluid is less than about 25 cP. 6. The method of claim 1 further comprising conveying the plurality of coated proppant particulates into the blender using an auger, a sand screw, or both. 7. The method of claim 1 wherein the DFR comprises at least two monomeric units selected from the group consisting of: acrylamide, acrylic acid, 2-acrylamido-2-methylpropane sulfonic acid, N,N-dimethylacrylamide, vinyl sulfonic acid, N-vinyl acetamide, N-vinyl formamide, itaconic acid, methacrylic acid, an acrylic acid ester, a methacrylic acid ester, guar-based polymers, synthetic polymers, biopolymers, and any combination thereof. 8. The method of claim 1 , wherein the amount of water comprises less than about 3 wt % of the coated proppant particulates. 9. The method of claim 1 comprising (i) and wherein combining the solids mixture with the amount of water to form the coated proppant particulates comprising the at least the partial coating of the DFR further comprises spraying the amount of water onto the solids mixture; or comprising (ii) and wherein wetting the plurality of particulates of the proppant with the amount of water to form the wetted proppant further comprises spraying the amount of water on the plurality of particulates of the proppant and/or wherein combining the wetted proppant with the DFR to form the coated proppant particulates comprising the at least the partial coating of the DFR further comprises spraying the DFR onto the wetted proppant to form the coated proppant particulates comprising the at least the partial coating of the DFR. 10. The method of claim 1 comprising (i) and further comprising spraying the amount of water onto the solids mixture when the solids mixture is on a conveyor; or comprising (ii) and further comprising spraying the amount of water on the plurality of particulates of the proppant when the plurality of particulates are on a conveyor and/or spraying the DFR onto the wetted proppant while the wetted proppant is on a conveyor. 11. A method of mitigating erosion of fracturing equipment during a fracturing treatment, the method comprising: forming a plurality of coated proppant particulates having at least a partial coating of a dry friction reducer (DFR) on a proppant; blending the plurality of coated proppant particulates with an aqueous base fluid in the blender to form a treatment fluid, whereby the at least the partial coating hydrates and swells to form a swelled coating which mitigates a striking impact of the proppant on downstream fracturing equipment; and injecting the treatment fluid downhole via the fracturing equipment whereby the proppant is placed in fractures created by the injection of a fracturing fluid, wherein forming the plurality of coated proppant particulates further comprises: (i) mixing the DFR with a plurality of particulates of the proppant to form a solids mixture and mixing the solids mixture with an amount of water to form the coated proppant particulates comprising the at least the partial coating of the DFR on the proppant, wherein the amount of water comprises less than about 3 wt % of the coated proppant particulates; or (ii) wetting the plurality of particulates of the proppant with an amount of water to form a wetted proppant and mixing the wetted proppant with the DFR to form the coated proppant particulates comprising the at least the partial coating of the DFR on the proppant, wherein the amount of water comprises less than about 3 wt % of the coated proppant particulates. 12. The method of claim 11 , wherein mixing the solids mixture with the amount of water comprises combining the solids mixture with the amount of water to provide a wetted solids mixture and passing the wetted solids mixture through an auger. 13. The method of claim 11 , wherein mixing the wetted proppant with the DFR comprises combining the wetted proppant with the DFR to provide a wetted solids mixture and passing the wetted solids mixture through an auger. 14. The method of claim 11 comprising (i) and wherein combining the solids mixture with the amount of water to form the coated proppant particulates comprising the at least the partial coating of the DFR further comprises spraying the amount of water onto the solids mixture; or comprising (ii) and wherein wetting the plurality of particulates of the proppant with the amount of water to form the wetted proppant further comprises spraying the amount of water on the plurality of particulates of the proppant and/or wherein combining the wetted proppant with the DFR to form the coated proppant particulates comprising the at least the partial coating of the DFR further comprises spraying the DFR onto the wetted proppant to form the coated proppant particulates comprising the at least the partial coating of the DFR. 15. The method of claim 11 further comprising conveying the plurality of coated proppant particulates into the blender using an auger, a sand screw, or both. 16. A method of mitigating erosion of fracturing equipment during a fracturing treatment, the method comprising: adding a solids-free fracturing fluid into the wellbore at an injection rate for generating a treating pressure above a fracture gradient to create one or more fractures in the subterranean formation; adding, via fracturing equipment, a treatment fluid into the wellbore to place proppant into the one or more fractures, wherein the treatment fluid is prepared by: forming a coated proppant by: (i) combining a plurality of particulates of the proppant with a dry friction reducer (DFR) and an amount of water to at least partially coat one or more of the plurality of particulates of the proppant with the DFR, wherein the amount of water comprises less than about 3 wt % of the coated proppant; and blending the coated proppant with an aqueous-based fluid to form the treatment fluid for adding into the wellbore, whereby the coated proppant hydrates with water, thus swelling to provide a swelled coating that mitigates a striking impact of the propp