Composition and method for hydraulic fracturing and evaluation and diagnostics of hydraulic fractures using infused porous ceramic proppant

What is claimed is: 1. A ceramic proppant composition for use in hydraulic fracturing, the composition comprising: non-porous particulates having a permeability of at least about 300 D at 4,000 psi closure stress; and porous ceramic particulates having an internal interconnected porosity of from about 5% to about 35% and comprising a chemical treatment agent disposed within the porous ceramic particulates and a polymer coating that is a reaction product of a cross-linker and a phenol formaldehyde polymer, the phenol formaldehyde polymer having a viscosity of from about 1100 cps to about 1850 cps at 150° C., wherein the polymer coating is configured to permit the chemical treatment agent to elute therethrough, wherein the ceramic proppant composition is formed by infusing the chemical treatment agent within the porous ceramic particulates at a first temperature of from 430° F. to 440° F. and coating the infused porous ceramic particulates with the polymer coating at a second temperature of from 410° F. to 420° . 2. The composition of claim 1 , wherein the porous ceramic particulates comprise an intermediate density ceramic non-porous proppant. 3. The composition of claim 1 , wherein the porous ceramic particulates comprise a high density ceramic porous proppant. 4. The composition of claim 1 , wherein the chemical treatment agent comprises one or more scale inhibitors. 5. The composition of claim 1 , wherein the chemical treatment agent comprises a chemical tracer. 6. The composition of claim 5 , wherein the chemical tracer comprises a biological marker. 7. The composition of claim 6 , wherein the biological marker comprises DNA. 8. The composition of claim 5 , wherein the chemical tracer comprises at least one of metallic and non-metallic nanoparticles. 9. The composition of claim 8 , wherein the nanoparticles are configured to alter wettability of the ceramic proppant composition in a hydraulic fracture environment. 10. The composition of claim 1 , wherein the chemical treatment agent is a surfactant configured to alter wettability of the ceramic proppant composition in a hydraulic fracture environment. 11. The composition of claim 1 , wherein the phenol formaldehyde polymer has a viscosity of about 1100 cps at 150° C. 12. The composition of claim 11 , wherein the chemical treatment agent comprises one or more scale inhibitors comprising diethylenetriamine penta(methylene phosphonic acid). 13. A ceramic proppant composition for use in hydraulic fracturing, the composition comprising: porous ceramic particulates; a chemical treatment agent disposed within the porous ceramic particulates; and a polymer coating that is a reaction product of a cross-linker and a phenol formaldehyde polymer, the phenol formaldehyde polymer having a viscosity of from about 1100 cps to about 1850 cps at 150° C., wherein the polymer coating is configured to permit the chemical treatment agent to elute therethrough, wherein the ceramic proppant composition is formed by infusing the chemical treatment agent within the porous ceramic particulates at a first temperature of from 430° F. to 440° F. and coating the infused porous ceramic particulates with the polymer coating at a second temperature of from 410° F. to 420° F. 14. The composition of claim 13 , wherein the porous ceramic particulates comprise a high density ceramic porous proppant. 15. The composition of claim 13 , wherein the chemical treatment agent further comprises a tracer material comprising a chemical tracer selected from the group consisting of dyes, fluorescent materials, metallic nano-particles, non-metallic nano-particles and biological markers. 16. The composition of claim 15 , wherein the chemical tracer comprises DNA. 17. The composition of claim 13 , further comprising non-porous ceramic particulates. 18. The composition of claim 15 , wherein the tracer material comprises at least one of metallic nano-particles and non-metallic nano-particles. 19. A ceramic proppant composition for use in hydraulic fracturing, the composition comprising: porous ceramic particulates; a chemical treatment agent disposed within the porous ceramic particulates, the chemical treatment agent comprising one or more scale inhibitors; and a polymer coating that is a reaction product of a cross-linker and a phenol formaldehyde polymer, the phenol formaldehyde polymer having a viscosity of from about 1100 cps to about 1850 cps at 150° C., wherein the polymer coating is configured to permit the chemical treatment agent to elute therethrough, wherein the ceramic proppant composition is formed by infusing the chemical treatment agent within the porous ceramic particulates at a first temperature of from 430° F. to 440° F. and coating the infused porous ceramic particulates with the polymer coating at a second temperature of from 410° F. to 420° F. 20. The composition of claim 19 , further comprising non-porous ceramic particulates and wherein the porous ceramic particulates comprise an intermediate density ceramic porous proppant. 21. The composition of claim 19 , wherein the chemical treatment agent comprises at least one of a paraffin inhibitor and a wax inhibitor. 22. The composition of claim 21 , wherein the at least one of a paraffin inhibitor and a wax inhibitor comprises an ethylene vinyl acetate copolymer. 23. A ceramic proppant composition for use in hydraulic fracturing, the composition comprising: porous ceramic particulates; a water-soluble chemical treatment agent in the porous ceramic particulates; and a polymer coating that is a reaction product of a cross-linker and a phenol formaldehyde polymer, the phenol formaldehyde polymer having a viscosity of from about 1100 cps to about 1850 cps at 150° C., and the polymer coating further comprising a hydrocarbon-soluble chemical treatment agent, wherein the polymer coating is configured to permit the water-soluble chemical treatment agent to elute therethrough, wherein the ceramic proppant composition is formed by infusing the water-soluble chemical treatment agent within the porous ceramic particulates at a first temperature of from 430° F. to 440° F. and coating the infused porous ceramic particulates with the polymer coating at a second temperature of from 410° F. to 420°. 24. The composition of claim 23 , further comprising non-porous ceramic particulates and wherein the porous ceramic particulates are selected from the group consisting of light weight ceramic porous proppant, intermediate density ceramic porous proppant, and high density ceramic porous proppant. 25. The composition of claim 23 , wherein the water-soluble chemical treatment agent comprises a scale inhibitor and the hydrocarbon-soluble chemical treatment agent comprises a paraffin inhibitor. 26. The composition of claim 1 , wherein the porous ceramic particulates have an internal interconnected porosity that is infused with the chemical treatment agent. 27. The composition of claim 1 , wherein the non-porous particulates have a porosity of less than 5% and the porous ceramic particulates have an internal interconnected porosity of about 15% to about 35%. 28. The composition of claim 1 , wherein the chemical treatment agent is configured to elute from the porous ceramic particulates upon contact with water. 29. The composition of claim 1 , wherein the composition has a conductivity that is at