ELECTRONICS ENCLOSURE WITH GLASS PORTION FOR USE IN A WELLBORE

Organization Name

Halliburton Energy Services, Inc.

Inventor(s)

Joachim Pihl of Sandefjord (NO)

ELECTRONICS ENCLOSURE WITH GLASS PORTION FOR USE IN A WELLBORE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240052739 titled 'ELECTRONICS ENCLOSURE WITH GLASS PORTION FOR USE IN A WELLBORE

Simplified Explanation

The abstract describes a sealed enclosure with a glass portion that allows an electromagnetic component to communicate wirelessly while preventing fluid from a wellbore environment from contacting the component.

• Sealed enclosure with glass portion
• Glass portion positioned with respect to an electromagnetic component
• Prevents fluid from wellbore environment from contacting electromagnetic component
• Allows electromagnetic component to wirelessly communicate with external component
• Second portion interfaces with glass portion to further prevent fluid contact

Potential Applications

- Oil and gas industry for downhole monitoring and communication - Subsea exploration for underwater communication - Industrial applications for remote sensing and control

Problems Solved

- Protects electromagnetic components from corrosive wellbore fluids - Enables wireless communication in harsh environments - Prevents contamination of sensitive equipment

Benefits

- Improved reliability of downhole equipment - Enhanced communication capabilities in challenging environments - Increased efficiency and safety in industrial operations

Original Abstract Submitted

a sealed enclosure can include a glass portion that can be positioned with respect to an electromagnetic component that is in an area defined by the sealed enclosure. the enclosure can prevent fluid from a wellbore environment from contacting the electromagnetic component and to allow the electromagnetic component to wirelessly communicate with a component external to the sealed enclosure. a second portion interfaces with the glass portion for preventing the fluid from the wellbore environment from contacting the electromagnetic component.