Chemistry and Technology of Fuels and Oils, Vol.52, No.2, 162-170, 2016
Polymer-Methanol Combines Inhibition of Gas Hydrate Formation
A study was carried out on combined inhibition by a solution containing 0.5% polymer kinetic inhibitor (KI) + 10.0% methanol as a thermodynamic inhibitor (TI) in the formation of methane hydrate (Class I) and the hydrate of 95.66 mol. % CH4 + 4.34 mol.% C3H8 (methanepropane mixture) (Class II). This combined inhibition was studied by an isothermal method and a method entailing cooling at a constant rate using a GHA350 autoclave. Methane was shown to have an adverse effect on the inhibiting properties of the polymer KI both relative to formation of methane hydrate and hydrates of C-1 -C-3 hydrocarbons. The loss of inhibition by the polymer KI in the presence of methanol is expressed as the decrease in the extent of supercooling attainable in the system without adsorption of the hydrate-forming gas (1.5-2.5A degrees C in comparison with the system without TI). The induction time is shown to depend on the extent of supercooling in the system during inhibition of formation of the Class I and Class II hydrates by the solution containing 0.5% KI + 10.0% TI.
Keywords:kinetic hydrate formation inhibitors;thermodynamic hydrate formation inhibitors;methanol;methane hydrate;methane-propane hydrate;supercooling degree;induction time