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A Model-Based Systematic Innovative Design for Sonic Logging Instruments in Natural Gas Wells.

Chong Jiang1, Wu Zhao1, Miao Yu1

  • 1School of Mechanical Engineering, Sichuan University, Chengdu 610065, China.

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Accurate downhole measurements are vital for natural gas extraction. This study introduces a new model-based design method for improved logging instruments, enhancing production and safety.

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conceptual designfault diagnosismodel-based system designsonic logging

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Area of Science:

  • Petroleum Engineering
  • Geophysics
  • Instrumentation Engineering

Background:

  • Accurate downhole temperature and pressure monitoring is critical for optimizing natural gas extraction and preventing accidents.
  • Existing logging instruments possess limitations that hinder effective monitoring of modern natural gas wells.

Purpose of the Study:

  • To propose a novel model-based systematic innovation design method for logging instruments.
  • To address the deficiencies of current logging technologies in natural gas exploration.

Main Methods:

  • Development of a model-based design methodology.
  • Utilizing finite element software for instrument simulations.
  • Validating the design method through theoretical and practical assessments.

Main Results:

  • Confirmation of the theoretical utility of the proposed model-based design method.
  • Demonstration of the practical applicability of the new design approach.
  • Successful simulation and validation of novel logging instrument designs.

Conclusions:

  • The model-based design method offers a significant advancement in logging instrument development.
  • This approach provides a novel and effective strategy for designing instruments for natural gas monitoring.
  • The findings support enhanced optimization of gas well production and accident prevention through improved instrumentation.