Annular Pressure Buildup Calculation When Annulus Contains Gas

During the execution of technological operations such as multiple pressure relief or foam separation during well injection, a gas column can form at the wellhead in the annular space, leading to annular pressure buildup (APB). Based on the theory of heat transfer, a model was proposed for calculating the wellbore heat transfer during production. Taking into account the expansion and compression of the fluid, changes in the wellhead volume, the thermodynamic characteristics of the liquid, and the equation of state of the gas, APB calculations were performed. Based on these parameters, the influence of the gas column height on APB was evaluated. The results of the studies show that the coefficients of expansion and compressibility in the annulus depend on density, pressure and temperature: the higher the productivity of the gas well, the higher the temperature and pressure in the annulus; the greater the height of the gas column, the lower the pressure at the wellhead. For a well with a productivity of 30· 104 m3/day and gas column height of 70 m in the annulus, the APB is reduced to atmospheric pressure. Studies of the model for calculating APB of the annular trapped gas provide a theoretical basis for developing optimal technological parameters for the operation of gas wells.