Proppant particles formed from fluid coke and flexicoke, fracturing fluids comprising such proppant particles, and methods related thereto

What is claimed is: 1 . A fracturing fluid, comprising: a carrier fluid; and first proppant particles selected from thermally post-treated fluid coke proppant particles, thermally post-treated flexicoke proppant particles, and mixtures thereof, wherein the first proppant particles have been thermally post-treated at a temperature in a range from 400 degrees Celsius (° C.) to 1200° C. for a predetermined duration. 2 . The fracturing fluid of claim 1 , wherein the predetermined duration ranges from 1 minute to 24 hours. 3 . The fracturing fluid of claim 1 , wherein the first proppant particles have particle sizes in a range from 5 microns (μm) to 500 μm. 4 . The fracturing fluid of claim 1 , wherein the first proppant particles have an apparent density in a range from 1.0 gram per cubic centimeter (g/cm 3 ) to 2.2 g/cm 3 . 5 . The fracturing fluid of claim 1 , wherein the first proppant particles have a crush strength in a range from 3,000 pounds per square inch (psi) to 15,000 psi. 6 . The fracturing fluid of claim 1 , wherein the first proppant particles have a nanoindentation modulus in a range from 5 gigapascals (GPa) to 50 GPa. 7 . The fracturing fluid of claim 1 , wherein the first proppant particles have a local hardness value as measured through nanoindentation in a range from 1 gigapascal (GPa) to 5 GPa. 8 . The fracturing fluid of claim 1 , wherein the first proppant particles have a carbon content in a range from 60 weight percent (wt %) to 99.5 wt % and a carbon-to-hydrogen (C/H) molar ratio in a range from 25:1 to 100:1. 9 . The fracturing fluid of claim 1 , wherein the first proppant particles comprise degradables at a concentration in a range from 0% to 3%, based on the total weight of the first proppant particles. 10 . The fracturing fluid of claim 1 , wherein the first proppant particles have an impurities content in a range from 1 wt% to 25 wt %, a sulfur content in a range from 0 wt % to 10 wt %, and a nitrogen content in a range from 0 wt % to 3 wt%, based on the total weight of the first proppant particles. 11 . The fracturing fluid of claim 1 , wherein the first proppant particles comprise particles having sizes no greater than 105 microns (μm) at a concentration of no more than 25 weight percent (wt %), based on the total weight of the first proppant particles. 12 . The fracturing fluid of claim 1 , wherein at least a portion of the flexicoke particles comprise at least one of thermally post-treated wet flexicoke fines and/or thermally post-treated dry flexicoke. 13 . The fracturing fluid of claim 1 , further comprising second proppant particles differing from the first proppant particles. 14 . The fracturing fluid of claim 13 , wherein the second proppant particles comprise at least one of: sand; fluid coke particles that have not been thermally post-treated; flexicoke particles that have not been thermally post-treated; delayed coke particles that have not been thermally post-treated; thermally post-treated delayed coke particles; pyrolysis coke particles; and coal-derived coke particles. 15 . The fracturing fluid of claim 1 , wherein the carrier fluid comprises water. 16 . The fracturing fluid of claim 1 , wherein the carrier fluid is substantially free of water. 17 . The fracturing fluid of claim 1 , further comprising at least one of an acid, a biocide, a breaker, a corrosion inhibitor, a crosslinker, a friction reducer, a gel, an oxygen scavenger, a pH control additive, a scale inhibitor, a surfactant, a weighting agent, an inert solid, a fluid loss control agent, an emulsifier, an emulsion thinner, an emulsion thickener, a viscosifying agent, a foaming agent, a stabilizer, a chelating agent, a mutual solvent, an oxidizer, a reducer, and a clay stabilizing agent. 18 . The fracturing fluid of claim 1 , wherein the predetermined duration ranges from 15 minutes to 4 hours. 19 . The fracturing fluid of claim 1 , wherein the first proppant particles have been thermally post-treated at a temperature in a range from 600 degrees Celsius (°C.) to 1050°C. for the predetermined duration. 20 . The fracturing fluid of claim 1 , wherein the first proppant particles have been thermally post-treated at a temperature in a range from 800 degrees Celsius (°C.) to 1050°C. for the predetermined duration. 21 . The fracturing fluid of claim 1 , wherein the first proppant particles have particle sizes in a range from 50 microns (μm) to 400 um. 22 . The fracturing fluid of claim 1 , wherein the first proppant particles have an apparent density in a range from 1.2 g/cm 3 to 2.0 g/cm 3. 23 . The fracturing fluid of claim 1 , wherein the first proppant particles have a crush strength in a range from 5,000 pounds per square inch (psi) to 15,000 psi. 24 . The fracturing fluid of claim 1 , wherein the first proppant particles have a nanoindentation modulus in a range from 10 gigapascals (GPa) to 40 GPa. 25 . The fracturing fluid of claim 1 , wherein the first proppant particles have a carbon content in a range from 75 wt % to 95 wt %, based on the total weight of the first proppant particles, and a carbon-to-hydrogen (C/H) molar ratio in a range from 50:1 to 100:1. 26 . The fracturing fluid of claim 1 , wherein the first proppant particles are not coated. 27 . The fracturing fluid of claim 1 , wherein at least a portion of the first proppant particles are coated. 28 . The fracturing fluid of claim 1 , wherein the first proppants are prepared by a process comprising: thermally post-treating fluid coke particles, flexicoke particles, and/or a mixture thereof at a temperature in a range from 400 degrees Celsius (°C.) to 1200°C. for the predetermined duration to obtain thermally post-treated coke particles; grinding and/or sieving the thermally post-treated coke particles to obtain ground and/or sieved coke particles; optionally coating the ground and/or sieved coke particles to obtain coated coke particles; and obtaining the first proppants from the ground and/or sieved coke particles and/or the coated coke particles. 29 . The fracturing fluid of claim 1 , wherein the first proppants are prepared by a process comprising: grinding and/or sieving fluid coke particles, flexicoke particles, and/or a mixture thereof to obtain ground and/or sieved coke particles; thermally post-treating the ground and/or sieved coke particles at a temperature in a range from 400 degrees Celsius (°C.) to 1200°C. for the predetermined duration to obtain thermally post-treated coke particles; optionally coating the thermally post-treated coke particles to obtain coated coke particles; and obtaining the first proppants from the thermally post-treated coke particles and/or the coated coke particles. 30 . A method, comprising: introducing a fracturing fluid into a subterranean formation, the fracturing fluid comprising a carrier fluid and first proppant particles selected from thermally post-treated fluid coke proppant particles, thermally post-treated flexicoke proppant particles, and mixtures thereof; wherein the first proppant particles have been thermally post-treated to a temperature in a range from 400 degrees Celsius (° C.) to 1200° C. for a predetermined duration. 31 . The method of claim 19 , wherein the predetermined duration ranges fro