Metaheuristic optimization approaches to predict shear-wave velocity from conventional well logs in sandstone and carbonate case studies

Seismic wave velocities, along with petrophysical data, provide valuable information during the exploration and development stages of oil and gas fields. The compressional-wave velocity (VP) is acquired using conventional acoustic logging tools in many drilled wells. But the shear-wave velocity (VS)...

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Bibliographic Details
Published in:Journal of geophysics and engineering 2018-06, Vol.15 (3), p.1071-1083
Main Authors: Niri, Mohammad Emami, Kolajoobi, Rasool Amiri, Arbat, Mohammad Khodaiy, Raz, Mahdi Shahbazi
Format: Article
Language:English
Subjects:
Algorithms
Case studies
compressional-wave velocity
empirical relations
metaheuristic optimization algorithms
Oil and gas fields
Oil fields
Optimization
petrophysical properties
Porosity
Sandstone
Seismic waves
shear-wave velocity
Wave velocity
Well logs
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Summary:Seismic wave velocities, along with petrophysical data, provide valuable information during the exploration and development stages of oil and gas fields. The compressional-wave velocity (VP) is acquired using conventional acoustic logging tools in many drilled wells. But the shear-wave velocity (VS) is recorded using advanced logging tools only in a limited number of wells, mainly because of the high operational costs. In addition, laboratory measurements of seismic velocities on core samples are expensive and time consuming. So, alternative methods are often used to estimate VS. Heretofore, several empirical correlations that predict VS by using well logging measurements and petrophysical data such as VP, porosity and density are proposed. However, these empirical relations can only be used in limited cases. The use of intelligent systems and optimization algorithms are inexpensive, fast and efficient approaches for predicting VS. In this study, in addition to the widely used Greenberg-Castagna empirical method, we implement three relatively recently developed metaheuristic algorithms to construct linear and nonlinear models for predicting VS: teaching-learning based optimization, imperialist competitive and artificial bee colony algorithms. We demonstrate the applicability and performance of these algorithms to predict Vs using conventional well logs in two field data examples, a sandstone formation from an offshore oil field and a carbonate formation from an onshore oil field. We compared the estimated VS using each of the employed metaheuristic approaches with observed VS and also with those predicted by Greenberg-Castagna relations. The results indicate that, for both sandstone and carbonate case studies, all three implemented metaheuristic algorithms are more efficient and reliable than the empirical correlation to predict VS. The results also demonstrate that in both sandstone and carbonate case studies, the performance of an artificial bee colony algorithm in VS prediction is slightly higher than two other alternative employed approaches.
ISSN:1742-2132
1742-2140
DOI:10.1088/1742-2140/aaaba2