WELLBORE DOWNLINK COMMUNICATION

Organization Name

Halliburton Energy Services, Inc.

Inventor(s)

Cristian Lenin Sosareyes of Stafford TX (US)

WELLBORE DOWNLINK COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18185835 titled 'WELLBORE DOWNLINK COMMUNICATION

Simplified Explanation:

This patent application describes a computer-implemented method for controlling a downhole tool in a wellbore by receiving sensor signals, identifying downlink signal triggers, detecting downlink signals, and decoding them to control the tool.

• The method involves receiving sensor signals from at least one sensor in a bottom hole assembly within a wellbore.
• It identifies at least two downlink signal triggers from the sensor signals.
• The method then detects a downlink signal between the identified triggers.
• It decodes the detected downlink signal to control a downhole tool.

Key Features and Innovation:

• Utilizes sensor signals from a bottom hole assembly to control downhole tools.
• Identifies and triggers downlink signals for communication within the wellbore.
• Decodes the downlink signals to enable precise control of the downhole tool.

Potential Applications:

• Oil and gas drilling operations.
• Geothermal well monitoring.
• Underground mining activities.

Problems Solved:

• Enhances real-time control of downhole tools.
• Improves communication and data transmission in wellbores.
• Increases efficiency and accuracy in wellbore operations.

Benefits:

• Enhanced precision in downhole tool control.
• Improved monitoring and data collection in wellbores.
• Increased efficiency and safety in drilling operations.

Commercial Applications:

The technology can be applied in the oil and gas industry for drilling operations, in geothermal energy production, and in underground mining activities. It has the potential to improve operational efficiency, reduce downtime, and enhance safety in these industries.

Questions about the Technology:

1. How does this technology improve communication and control in wellbores? 2. What are the potential cost-saving benefits of implementing this method in drilling operations?

Frequently Updated Research:

Ongoing research in this field focuses on enhancing the speed and accuracy of downlink signal detection and decoding, as well as expanding the applications of this technology in various industries.

Original Abstract Submitted

A computer-implemented method includes receiving sensor signals from at least one sensor at a bottom hole assembly within a wellbore. The method further includes identifying at least two downlink signal triggers from the sensor signals and detecting a downlink signal between the at least two downlink signal triggers. Further, the method includes decoding the downlink signal detected between the at least two downlink signal triggers and controlling a downhole tool using the decoded downlink signal.