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Log Data Acquisition and Quality Control

Auteurs : THEYS Philippe

THEYS Philippe

Diplômé Ingénieur de l’Ecole Centrale de Paris
Licencié ès Sciences économiques
DEA de Physique des Plasmas
Consultant dans le domaine de la qualité des données géophysiques.
Domaine de publication :
Interprétation et acquisition des diagraphies
Auteur de nombreuses communications scientifiques essentiellement en anglais, mais aussi en russe, français et japonais.
Les titres principaux sont:
- Quest for Quality Data (Ed. Technip)
- Log Data Acquisition and Quality Control (Ed. Technip)
- Litho Density Logging (Schlumberger)
- Nuclear Magnetic Resonance Logging (Schlumberger)
- CSU Reference Manual (Schlumberger)
- MAXIS Reference Manual (Schlumberger)
- Anadrill Reference Manual 96 (Schlumberger)
- Anadrill Reference Manual 98 (Schlumberger)
Ancien Président de la SPWLA (Society of Petrophysicists and Log Analysts)
Président de la SAID (Société d’Avancement de l’Interprétation de la SAID).
Editeur associé de la SPWLA. Fondateur et contributeur de la rubrique "Le Log."

Commentaire : Foreword by F. AL-KASIM. 2nd edition revised and expanded
ISBN : 9782710807483
broché      170 x 240 mm      480 pages
Date de publication : Mai 1999

Acheteurs américainsAcheteurs américains

While the first well logs recorded seventy years ago had no provision for data quality control, the development of increasingly sophisticated logging techniques has led to the introduction of a large number of tests to validate acquired data. Log quality can be assured by stringent control of depth, calibrations, signal processing and operating procedures. This work gives a thorough description of these features. The meaningful interpretation of well logs depends on valid input. An understanding of log acquisition, and the performance of rigorous quality checks are the prerequisites for an accurate evaluation of a formation. These elements also enable log users to make decisions based on calculated risks. The book is primarily written for earth science specialists who use log data. It also addresses the needs of logging engineers who seek a better understanding of the log acquisition process. Exercises and their solutions are scattered in the book to complement practical chapters.

Table des matières :

 I. Premises. 1. Introduction. 2. Evaluation of hydrocarbon volume. 3. Data collection and decision-making. 4. Elements of metrology I: error analysis. 5. Elements of metrology II: volume considerations. 6. Elements of metrology III: other attributes. 7. Mathematical preliminary: propagation of errors. II. Data acquisition. 8. Data acquisition. 9. Sensor and source technology. 10. Effect of measurement duration on precision. 11. Signal processing: filtering. 12. Enhancement of vertical resolution through processing. 13. Tool response. 14. Environmental corrections. 15. The real environment. 16. Density logging. 17. Calibration. 18. Monitoring of tool behavior. 19. Measurement of depth. 20. Directional surveys. III. Data quality control. 21. Data quality plan. 22. Completeness of information. 23. Data management. 24. Log quality checks. 25. Data quality evaluation. 26. Images and nuclear magnetic resonance. 27. Comparison of logged data with other information. 28. Optimum logging and uncertainty management. Bibliography. Index.

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