Advanced Acoustic Telemetry System Provides Real-time Data Acquisition that Increases Efficiency in Well Testing Operations

Harper, George; Almanza, Edgar; Fosså, Arild; Finley, Douglas; Strang, Gerry

doi:10.4043/15324-ms

Cited by 4 publications

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Improvements to Data Acquisition and Bottomhole Fluid Sampling in Offshore Drill-Stem Testing

Engel

Azevedo

Pontes

2014

SPE Latin America and Caribbean Petroleum Engineering Conference

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Drill-stem testing (DST) is a proven method for reservoir characterization, which is important when designing well completion, future development strategies, and stimulation needs. If the completion designer has the ability to acquire accurate knowledge of fluid behavior as the hydrocarbon is produced to surface, decisions concerningcompletion strategies and expectations during well life can be greatly facilitated. The capability to collect a single-phase sample also is critical to reservoir modeling, as is achieving correct analysis of collected reservoir fluidswith accurate data collection frombottomhole gauges. Samples must remain as single-phase fluid samples during recovery, and introducing high-pressure nitrogen behind the sample helps maintain sample pressure. By monitoring nitrogen-charge pressure in the sampler carrier, the exact time the samplers are fired is known. Thus, monitoring gauges will show any abnormality such as whether the annulus was pressurized or if the samplers were fired at an unwanted moment. By integrating the sampler carrier gauge with a wireless acoustic data-acquisition system, status and confirmation of success of the trigger device are provided. Also, casing-pressure limitations are reduced by actuating downhole tools using acoustic telemetry instead of annulus pressure. This paper discusses offshore field operations in Brazil to illustrate the importance of correlating gauge data from sample well fluids with a wireless acoustic telemetry system, and also, how the successful application of a wirelessly controlled DST work string composed of a data-acquisition system, an acoustically controlled tester valve, and samplers can significantly improve well-testing strategies.

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Improvements to Data Acquisition and Bottomhole Fluid Sampling in Offshore Drill-Stem Testing

Engel

Azevedo

Pontes

2014

SPE Latin America and Caribbean Petroleum Engineering Conference

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Review of Downhole Wireless Communication Techniques

Arsalan

Ahmad

Noui‐Mehidi

2014

Day 3 Wed, November 12, 2014

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Real-time permanent monitoring and control is essential to maximize production from oil and gas wells. An interdisciplinary approach is needed for any cost-effective solution that can perform and be sustained in the harsh downhole environment. For open hole horizontal wells, providing power and data through an umbilical is very challenging. Wireless communication is the essential component of any downhole monitoring and control solution in this situation. A wireless solution can also significantly reduce the complexity and cost associated with the wired solutions. In this paper various wireless communication techniques are classified and an extensive review of state-of-the-art downhole applications is presented. Advantages and limitations of each technique are discussed and recommendations are made of possible solutions.

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Vibrational Data Communication Tools and Methods for Mining and Oil and Gas Extraction

2022

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Summary For the purpose of exploration and extraction, the drilling process in the mining and oil and gas industries is very complicated because of the obvious invisibility of the operation of the drill bit. Acoustic/vibrational telemetry has been of keen interest because it is so far the only method that allows a high data transfer rate as well as less data loss, over other methods. The method certainly depends on the use of the right communication tools and efficient communication schemes to achieve the highest data transfer rate. Although the acoustic method provides a very high data transmission rate, it also has its limitations. However, limitations can be overcome through certain approaches and the use of technologies. The proper use of a communication device with the steel pipe is the most important factor to consider so that the transducer works as the right actuator for the pipeline. The type of sensor that is used to pick up the data also plays a major role because signals are most likely to attenuate, and a sensitive sensor is necessary to collect these attenuated signals. This research demonstrates the use of a transducer as a communication device and oil and gas pipe as the medium of data transmission. The transducer can be used both as an actuator driver and as a receiver sensor. A new piezoelectric transducer was manufactured for this research, which was used with a test setup of a total 184 ft length of six oil and gas pipes. The test setup performed well and data were sent through this setup successfully. A communication scheme is developed using novel theories to achieve the highest data transfer rate. The scheme is tested with the transfer function data obtained from the experimental system. The communication scheme developed outputs a signal, which is a type of binary phase-shift keying signal data along with an equalizer filter. Then the signals developed from the scheme are used in the actual experimental setup to test the speed of the transmission and bit error rate (BER). For the six oil and gas pipes setup, the scheme provides a data transmission of 153 bits/sec (bps) with zero error percentage, which is high enough to use in any oil and gas industry.

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Advanced Acoustic Telemetry System Provides Real-time Data Acquisition that Increases Efficiency in Well Testing Operations

Cited by 4 publications

References 0 publications

Improvements to Data Acquisition and Bottomhole Fluid Sampling in Offshore Drill-Stem Testing

Improvements to Data Acquisition and Bottomhole Fluid Sampling in Offshore Drill-Stem Testing

Review of Downhole Wireless Communication Techniques

Vibrational Data Communication Tools and Methods for Mining and Oil and Gas Extraction

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