Aaron James Bonner scite author profile

Aaron James Bonner

2Publications

1Citation Statement Received

1Citation Statement Given

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Affiliations

Halliburton (United Kingdom)

Publications

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Autonomous ICD Installation Success in Ecuador Heavy Oil: A Case Study

Least

Bonner

Regulacion

et al. 2013

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New technology has been called upon in Ecuador to help increase reserves and optimize the management of fluid in several reservoirs. Autonomous Inflow Control Devices (AICD) have provided increased oil production and decreased water production with installations in the Ginta field. When compared to neighboring wells completed with stand-alone screen technology and producing the same total liquid, the AICD installation initially produced more oil with a lower water cut percentage. Over several months, the water cut in the AICD installation eventually reached a similar level to that of offset completions; however, allowed significant more oil recovery prior to reaching that point. The heavy oil in these fields is approximately 60cP in viscosity. The wells are still in the evaluation phase; however, early data is of interest.Due to its autonomous sensing functionality, fluid viscosity dictates the path the produced fluid will take through the AICD. Higher viscosity oil takes a relatively non-restrictive path whereas low viscosity water is sent on a tortuous path causing a decrease in flow rate through that particular tool. A well completed with a system of AICDs and oil swelling packers for annular isolation restricts zones with high water ratios which in turn stimulates neighboring oil zones.This paper presents oil production data over time for two AICD heavy oil installations in Ecuador and compares the data to that from neighboring wells in the field. The benefit of AICD technology for reservoir management and production optimization will be discussed.

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Design and Validation of an Improved Shunt Tube System

Bonner

Hailey

Veit

2014

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Shunt tube technology to mitigate premature bridging in the annulus while pumping slurry has been used successfully in the oilfield for over two decades to assure complete gravel placement. The systems have been applied in a variety of scenarios including single and multizone completions, cased and openhole completions, and both gravel and frac-pac applications. By deploying a screen system empowered with the slurry bypass mechanisms of a shunt system, an operator usually experienced greater job reliability, a reduced possibility of pack failure, and maximized production.This paper discusses an improved version of the traditional shunt tube system that has recently been developed by a major engineering and service company to enhance sand screens for gravel packing in long production intervals. The system was designed primarily for gravel packing in horizontal wells and is a system with two larger transport tubes and two smaller packing tubes, all mounted to standard sand screens in an eccentric design. A new seal design improves sealing capability between the joints of screen. By the optimization of the attachment of the tubes to each other, to the rings mounting the system to the screen, and to the sealing fittings at the transport tube ends, the design significantly enhances system capabilities.Computer flow modeling was used to improve erosion resistance and lower pressure loss by reducing friction at tube connection flow transitions. Extensive test programs to ensure equipment integrity, including torque, tension, and compression capability of major components were used. The system can be assembled more quickly due to the shroud covering the joint connection being an integral component of the screen with no bulky clamshell hinges or pins to be assembled.The improved pressure sealing, erosion resistance, ruggedness, improved rig assembly times, and system qualification will be presented in the paper.

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