Study on the Effect of Fracturing Pump Start and Stop on Tubing Fluid-Structure Interaction Vibration in HPHT Wells via MOC

Cui, Lu; Qiao, Fanfan; Li, Meng; Xiao, Yiming; Cheng, Jiarui

doi:10.3390/en15249291

Energies

2022

DOI: 10.3390/en15249291

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Study on the Effect of Fracturing Pump Start and Stop on Tubing Fluid-Structure Interaction Vibration in HPHT Wells via MOC

Lu Cui¹,

Fanfan Qiao²,

Meng Li³

et al.

Abstract: The processes of HTHP well fracturing, oil drive, and gas recovery are accompanied by the non-stationary flow of medium in the tubing, which may lead to periodic vibration and cause the failure and fatigue of the tubing, thread leakage, and bending deformation. In this paper, a fluid–structure interaction model with 4-equation was established, which considered the unsteady flow of fluid and the motion state of tubing during the periodic injection, pump start, and shutdown of fluid in the tubing. Further, the d… Show more

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2024

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Cited by 2 publications

References 27 publications

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Analysis of nonlinear vibration response to wear fault of big-end bearing shell of connecting rod in the ultra-high pressure five-cylinder plunger pump

Jing,

Chen,

Yang

et al. 2024

Journal of Vibration and Control

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The ultra-high-pressure five-cylinder plunger pump is core equipment in multi-field, with its important components, such as big-end bearing shell of connecting rod, being prone to wear under high-intensity operation. However, the vibration characteristics of this type of equipment are complex and are currently not adequately researched. In view of this, this paper takes a certain model of five-cylinder fracturing pump as the research object. A rigid–flex coupling model of fracturing pump considering the wear fault of the big-end bearing shell of connecting rod is established. And taking the pressure-flow variation at the hydraulic end as boundary condition, the influence of wear degree and position on its vibration response is revealed. The results show that the collision force, centroid displacement, and vibration acceleration of the big-end bearing shell of connecting rod are mainly affected by the clearance collision parameters. Among them, the vibration acceleration is also affected by the collision between the connecting rods. For connecting rod big-end bearing shell with abnormal clearances, the collision force average amplitude and the centroid displacement effective value of it, and the vibration acceleration effective value at the corresponding measurement point all increase with the degree of wear increases. The vibration acceleration effective value at remaining measuring point decreases, and the further away from the connecting rod of abnormal clearance, the decline tends to be gentle. The research results provide a theoretical basis for the optimization of structural performance and the development of fault diagnosis technology of the five-cylinder plunger pump.

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Analysis of nonlinear vibration response to wear fault of big-end bearing shell of connecting rod in the ultra-high pressure five-cylinder plunger pump

Jing,

Chen,

Yang

et al. 2024

Journal of Vibration and Control

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show abstract

Research on the performance of pump-turbine during the transition process from pump mode to turbine mode

Man,

Xu,

Gui

et al. 2024

Front. Energy Res.

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In current engineering, the transition process of pump turbines from pump to turbine mode mainly includes the shutdown process of pump operating and the startup process of turbine operating, and the switching of working conditions mostly depends on the opening and closing of the ball valve. While, this article focuses on the transitional process of pump turbine from pump to turbine condition without relying on ball valve, which will significantly reduce the response time of the unit and enable quick switching of operating conditions in emergency situations. In this study, the torque balance equation is employed to analyze the transition process of the entire flow system from pump to turbine operation. Additionally, the entropy production theory is utilized to investigate the correlation between pressure, flow state, and energy loss in the pump-turbine, shedding light on the changes in external characteristics through the evolution of internal characteristics. Furthermore, the transition process from pump mode to turbine mode is segmented into five stages based on the variations in the guide vanes (GV). The findings reveal that the rotation of GV triggers sharp fluctuations in static pressure, torque, and axial force. During stage four, the initiation of all three GV positions results in an increase in flow rate and torque, accompanied by a decrease in axial force. In stage two, the closure of GV leads to a decrease in pressure within the spiral casing (SC) and stay vanes (SV) domains, coupled with an increase in pressure in the bladeless zone, runner, and draft tube domains. Simultaneously, the pressure difference between both sides of the runner decreases significantly, directly causing a drop in torque and axial force. In stage three, GV closure interrupts the flow in the pump-turbine, resulting in significant backflow in the SC, SV, and runner domains, alongside high-speed circulation in the bladeless area. Moreover, the location of the high entropy production rate (EPR) value within the unit aligns with the reflux zone, indicating considerable energy loss attributable to reflux. The above research results will provide reference for the rapid switching of operating conditions of pump turbines in emergency situations.

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Study on the Effect of Fracturing Pump Start and Stop on Tubing Fluid-Structure Interaction Vibration in HPHT Wells via MOC

Cited by 2 publications

References 27 publications

Analysis of nonlinear vibration response to wear fault of big-end bearing shell of connecting rod in the ultra-high pressure five-cylinder plunger pump

Analysis of nonlinear vibration response to wear fault of big-end bearing shell of connecting rod in the ultra-high pressure five-cylinder plunger pump

Research on the performance of pump-turbine during the transition process from pump mode to turbine mode

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