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A Compact Non-Intrusive Measurement System for Critical Dimensions and Calibration Chart Generation of Underground Fuel Tanks

İlker Değirmencioğlu1,
Savaş Barış2,
Yusuf Kaya3
1ASIS Automation Inc.
2ASIS Automation Inc.
3ASIS Automation Inc.
Published:December 31, 2025
DOI: 10.56038/ejrnd.v5i1.724
Vol. 5, No. 1

Abstract

This paper presents a compact, non-intrusive measurement system designed for determining the critical dimensions and generating calibration charts of underground fuel tanks via a 2-inch access port. The system employs a laser electronic distance measurement (EDM) device located outside the Zone 0 hazardous environment, with the beam directed into the tank through a mirror-based tilt mechanism. A key contribution is the ability to generate accurate calibration charts. Mirror tilt actuation is controlled via a linear actuator, where the non-linear relation between displacement and angular rotation can be resolved either through a lookup table or analytically as the mechanical linkage properties are known. The methodology involves coarse scanning for tank geometry estimation followed by targeted high-resolution scans at critical angles to derive diameter, length, dome geometry, and inclination. Real-world results demonstrate volumetric accuracy better than 0.2%, with an expected performance of 0.3% [1] in calibration chart generation, confirming that the system meets industrial standards for underground storage tank metrology, including OIML R 71.

Keywords
CalibeX-ProCalibration ChartUnderground Fuel TanksLaser EDMATEXExplosion-proofNon-destructive InspectionOIML R 71

References

  1. 1.International Organization of Legal Metrology (OIML), OIML R 71: Tank Calibration – Volume and Capacity Metrology, OIML, Paris, n.d.
  2. 2.Y. Kaya, Method and Apparatus for Calibration Chart Forming of Underground Fuel Tanks, European Patent EP2212658A1, 2010.
  3. 3.European Parliament and Council, Directive 2014/34/EU (ATEX), Official Journal of the European Union, 2014.
  4. 4.IEC 60079-1:2014, Explosive atmospheres – Part 1: Equipment protection by flameproof enclosures “d”, International Electrotechnical Commission (IEC), Geneva, 2014.
  5. 5.IEC 60079-28:2021, Explosive atmospheres – Part 28: Protection of equipment and transmission systems using optical radiation, International Electrotechnical Commission (IEC), Geneva, 2021.
  6. 6.R. Stahl AG, Explosion Protection for Optical Radiation: Technical Guidance, R. Stahl AG, n.d.
  7. 7.J. Hu and X. Hao, "Applications of 3D Laser Scanning for Storage Tank: Review, Challenges and Outlook," in 2017 IEEE Forum on Emerging Technologies & Innovative Applications (FENDT), 2017.
  8. 8.S. Enguita, C.-H. Chen, and S. Kovacic, "A Review of Emerging Sensor Technologies for Tank Inspection: A Focus on LiDAR and Hyperspectral Imaging and Their Automation and Deployment," *Electronics*, vol. 13, no. 23, 2024.
  9. 9.A.-A. Stoicescu, R. G. Ripeanu, M. Tanase, and L. Toader, "Current Methods and Technologies for Storage Tank Condition Assessment: A Comprehensive Review," *Materials*, vol. 18, no. 5, p. 1074, 2025.
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Cite This Article
Değirmencioğlu, İ., Barış, S., Kaya, Y. (2025). A Compact Non-Intrusive Measurement System for Critical Dimensions and Calibration Chart Generation of Underground Fuel Tanks. *The European Journal of Research and Development*, 5(1), 469-476. https://doi.org/10.56038/ejrnd.v5i1.724

Bibliographic Info

JournalThe European Journal of Research and Development
Volume5
Issue1
Pages469–476
PublishedDecember 31, 2025
eISSN2822-2296