Downhole Beam Pump Operation: Slippage and Buckling Forces Transmitted to the Rod String

Sucker rod pumps provide mechanical energy to lift oil from bottom hole to surface when oil wells do not have enough energy to produce the oil through natural flow. It is efficient, simple, easy to be operated, and can be applied to slim holes, multiple completions, and high-temperature and viscous oils. The disadvantages include excessive friction in crooked holes, solid-sensitive problems, low efficiency in gassy wells, limited depth, and bulky volume. The load on the rod is one of the key factors that dictate the maintenance frequency of pumping unit, energy consumed to lift the fluid, and the optimization of pumping system operating parameters. The cyclic load applied on the rod causes the fatigue and finally the failure of the rod if not designed properly. The rod load is a function of friction force, plunger acceleration/deceleration, weights of plunger, fluid being lifted, and sucker rods string, and the pressures above and below on plunger. Literature review indicates that a model to accurately calculate the load of a pumping cycle is highly desired. In this study, we couple the wellbore with reservoir performance to better analyze the dynamics of pump system, which yields more accurate results. In this study, force balance during the pumping cycle is analyzed. Friction force due to the movement of the plunger and the rod, buoyant force, and gravity force are included in the modeling. The effects of acceleration and deceleration of the plunger on rod are considered. The sensitivity of pumping speed is investigated. This study proposed a more general model comparing with former researches because more factors that affect the load applying on rod are included. Including the friction force due to the viscous fluid is critical to rod load analysis in pumping heavy oil. The proposed model is significant to the cyclic fatigue and failure analysis of rod in sucker rod pumping system. It can be used to predict the possible failure point for rod string by analyzing load along the whole string. It is also a useful tool to design the tapered rod string to minimize the maximum rod load while achieving optimum rod string life. Therefore, an optimization of sucker rod pumping system is implemented by balancing the tradeoff between the maximum rod string life (or rod size) and the minimum rod load (or lowest energy consumption).

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Volumetric Efficiency Evaluation of Sucker-Rod-Pumping Applications Performed on a Pump Testing Facility

Kochtik

Langbauer

2018

Day 2 Thu, November 29, 2018

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Low oil prices at the stock market and high water cuts of the produced fluid, force the oil companies to continuously optimize their facilities to meet the actual requirements regarding efficiency. One step in the chain of oil production from the reservoir to the customer is the optimization of artificial lift systems in mature oil fields. Nowadays sucker rod pumping systems are still by far the most frequently used artificial lift systems. These pumps represent an efficient and simple way to increase the oil production. On the one hand from the technical point of view, this system is easily adjustable to changing operating conditions. On the other hand, its economic footprint is, compared to other artificial lift methods, relatively small. Due to the huge number of installed units, an energy efficient and failure resistant design is essential. A deep understanding of the actual process during pumping is significant for continuously optimizing the pumping system. This paper presents the evaluation of volumetric efficiency tests, performed at the Pump Testing Facility (PTF) at the Montanuniversität Leoben, under various operating conditions and the investigating of the related physical effects. Slippage, one of the most influencing factors of volumetric efficiency, is highly dependent on the differential pressure generated by the pump plunger, but as well on the strokes per minute. The results of various attempts that were performed to get a detailed understanding of the internal losses (slippage volume) during the pumping operation are shown. Two different pump types, namely the standard sucker rod pump (SRP) and the sucker rod anti-buckling system pump (SRABS) are tested with different fluid types. Both pumps were operated with various speeds and under different pressure conditions. The test results are compared with existing slippage models. The comparison indicates that most of the existing slippage models underpredict the slippage rate by a significant fraction. Therefore, it is necessary to do additional and more detailed tests to be able to define a more precise model to predict slippage losses during pumping operations.

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Downhole Beam Pump Operation: Slippage and Buckling Forces Transmitted to the Rod String

Cited by 6 publications

References 1 publication

Response analysis of longitudinal vibration of sucker rod string considering rod buckling

Response analysis of longitudinal vibration of sucker rod string considering rod buckling

A New Model to Evaluate Polished Rod Load of Sucker Rod Pumping System

Volumetric Efficiency Evaluation of Sucker-Rod-Pumping Applications Performed on a Pump Testing Facility

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