Stuffing box is commonly used in oilfield. It is a component of a pumping unit. When the pumping unit' s polish rod moves up and down repeatedly, the stuffing box can play a role in sealing so as to prevent the liqui...Stuffing box is commonly used in oilfield. It is a component of a pumping unit. When the pumping unit' s polish rod moves up and down repeatedly, the stuffing box can play a role in sealing so as to prevent the liquid in the oil well flom leaking. However, there can be friction, called "eccentric wear" , between the polish rod and stuffing box for some reason during their relative movements. This paper proposed specific solution through analyzing this phenomenon.展开更多
The governing equation about steady flow of viscoelastic fluids in an eccentric annulus with inner rod moving axially is established by using common conversion Maxwell constitutive model. The numerical solutions of th...The governing equation about steady flow of viscoelastic fluids in an eccentric annulus with inner rod moving axially is established by using common conversion Maxwell constitutive model. The numerical solutions of the flow are obtained by control volume and ADI methods. The influence of the eccentricity, velocity of inner rod and elasticity of fluid to the velocity distribution, flow rate and radial force on the inner rod is obtained, and the reason for the severe eccentric wear of the sucker rod of polymer flood well is analyzed.展开更多
The equation governing the unsteady flow of viscoelastic fluids in an eccentric annulus was derived by using the common conversion Maxwell fluid constitutive equation and then discretized by the control volume method....The equation governing the unsteady flow of viscoelastic fluids in an eccentric annulus was derived by using the common conversion Maxwell fluid constitutive equation and then discretized by the control volume method. The velocity distribution of flow field was computed by using the ADI method. The influences of the pressure gradient, eccentricity, stroke length, and stroke frequency on the velocity and flow capacity in the flow field was analyzed. The foundation for further research of the eccentric wear problem of the pumping rod in polymer-flood well was laid.展开更多
文摘Stuffing box is commonly used in oilfield. It is a component of a pumping unit. When the pumping unit' s polish rod moves up and down repeatedly, the stuffing box can play a role in sealing so as to prevent the liquid in the oil well flom leaking. However, there can be friction, called "eccentric wear" , between the polish rod and stuffing box for some reason during their relative movements. This paper proposed specific solution through analyzing this phenomenon.
基金Project supported by the National Natural Science Foundation of China (Grant Nos :50274019 ,50374018) .
文摘The governing equation about steady flow of viscoelastic fluids in an eccentric annulus with inner rod moving axially is established by using common conversion Maxwell constitutive model. The numerical solutions of the flow are obtained by control volume and ADI methods. The influence of the eccentricity, velocity of inner rod and elasticity of fluid to the velocity distribution, flow rate and radial force on the inner rod is obtained, and the reason for the severe eccentric wear of the sucker rod of polymer flood well is analyzed.
基金supported by the National Natural Science Foundation of China (Grant No. 50274019)
文摘The equation governing the unsteady flow of viscoelastic fluids in an eccentric annulus was derived by using the common conversion Maxwell fluid constitutive equation and then discretized by the control volume method. The velocity distribution of flow field was computed by using the ADI method. The influences of the pressure gradient, eccentricity, stroke length, and stroke frequency on the velocity and flow capacity in the flow field was analyzed. The foundation for further research of the eccentric wear problem of the pumping rod in polymer-flood well was laid.
