Jieming Wang

TL;DR: Based on the differences in production mode and operation process between gas storage and gas reservoir, this paper established a phase balance test procedure and a theoretical simulation model of phase balance during multi-cycles of injection and production of underground gas storage (UGS) rebuilt from condensate gas reservoir.

TL;DR: In this paper, the dynamic sealing capacity of traps and the water-gas high-speed interactive flow mechanism of UGSs rebuilt from gas reservoirs with complex geological conditions were investigated by both physical simulation and numerical simulation.

TL;DR: In view of the gap between the gas storage inventory forecasted by the traditional material balance equation and the actual inventory, experiments of displacing gas by water and displacing water by gas were carried out, and the modified material balance equations considering pore volume loss due to water invasion and pay heterogeneity was deduced based on the percolation mechanism inferred from the experiments above, moreover the equation was verified by example analysis as mentioned in this paper.

TL;DR: In this paper, a modified equation of inflow-performance relationship considering gas permeability change due to water invasion was established, and the experimental results show that the modified equation considers the effect of changing permeability, its results agree with the actual inflow performance, while the result of traditional equation differs greatly from the actual performance.