Application and Development Directions of Electrical Imaging Logging
DOI:
https://doi.org/10.54097/0fh0rr19Keywords:
Electrical Imaging Logging; Geological Applications; Fracture Analysis; Autonomous Technology; Digital Transformation.Abstract
Electrical imaging logging, as a pivotal advancement in modern well logging technology, has revolutionized reservoir characterization by providing high-resolution, visual representations of borehole walls and formation structures. This paper reviews the geological applications of electrical imaging logging, including fracture analysis, sedimentary facies identification, and reservoir heterogeneity evaluation, while addressing current challenges and future development trends. The integration of autonomous equipment upgrades, digital transformation, and enhanced imaging resolution are highlighted as critical pathways for advancing this technology.
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[1] Sinopec Group. (2024). *Current Status and Development Directions of Logging Technology in Sinopec*. Retrieved from https://max.book118.com/html/2024/1228/8075135023007013.shtm
[2] China National Petroleum Corporation. (2025). *Equipment Upgrading Empowers Characteristic Development*. Retrieved from https://new.qq.com/rain/a/20250218A05CCG00
[3] Tao, D. (2017). *Advances in Geological Applications of Electrical Imaging Logging*. Taodocs. Retrieved from https://www.taodocs.com/p-85530642.html
[4] Yongxing Technology. (2022). *Industry Trends: Current Status and Development of Imaging Logging*. Retrieved from https://m.richwelllogging.com/news/hangye/63.html
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Copyright (c) 2025 Academic Journal of Science and Technology
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