Methane recovery from coal mine gas using hydrate formation in water-in-oil emulsions

Abstract

In this work, a water-in-oil (W/O) emulsion was developed using liquid water, mineral oil, Sorbitan monooleate (Span 80), and cyclopentane. It was employed to enhance gas hydrate formation for CH4 separation from a simulated coal mine methane (CMM) gas (30mol% CH4, 60mol%N2, and 10mol% O2). The stability test at atmospheric pressure and at a high pressure of 3.5MPa showed that stable W/O emulsions were obtained when the water–oil volume ratio (WOR) was below 80%. The emulsified droplets size was measured with WOR ranging from 10% to 70%. Then kinetic experiments of CH4 separation by hydrate formation in W/O emulsions were carried out at 273.6K and (3.5–5.0)MPa in batch operation. The results indicated that water–oil volume ratio is a key factor that affects the kinetics of gas hydrate formation from the CMM gas mixture. Hydrate nucleation was observed to occur faster while WOR was decreased, and gas uptake increased significantly with the decrease of WOR. CH4 concentration in the recovered gas mixture was increased to 52mol% as compared to 30mol% in the original gas mixture through one-stage hydrate formation in the W/O emulsions. It was found that the experimental conditions of 273.6K, 3.5MPa and WOR=30% were favorable for CH4 recovery from the CMM gas. The CH4 recovery obtained under these conditions was 43%. It was higher than those obtained at WOR=10% and 70%, and was greatly increased as compared with those obtained in the same reactor with the presence of TBAB (26%) and CP (33%).