TY  - JOUR
PB  - Elsevier B.V.
SN  - 09204105
Y1  - 2020///
VL  - 195
A1  - Krishna, S.
A1  - Ridha, S.
A1  - Vasant, P.
A1  - Ilyas, S.U.
A1  - Sophian, A.
JF  - Journal of Petroleum Science and Engineering
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090552029&doi=10.1016%2fj.petrol.2020.107818&partnerID=40&md5=89d4074774724b5f9e8a354d0a807818
AV  - none
ID  - scholars12427
TI  - Conventional and intelligent models for detection and prediction of fluid loss events during drilling operations: A comprehensive review
KW  - Artificial intelligence; Forecasting; Infill drilling; Petroleum industry; Risk perception
KW  -  Drilling operation; Intelligent models; Loss circulation; Pressure while drillings; Preventive measures; Subsurface formations; Systematic Review; Theoretical study
KW  -  Predictive analytics
KW  -  algorithm; artificial intelligence; computer simulation; deep drilling; detection method; hydrocarbon exploration; hydrocarbon reservoir; well technology
N2  - Fluid loss to subsurface formations is a challenging aspect during drilling operations in petroleum industry. Several other drilling issues such as fluid influx and pipe sticking can be triggered in such scenarios, posturing a significant risk to rig personnel, environment, and economical drilling. Therefore, prediction and early detection of lost circulation events are required for safe and economic drilling operation. Several theoretical studies have been performed to detect and predict fluid loss event during hydrocarbon extraction. This paper reviews the existing conventional and intelligent models developed for early detection and prediction of lost circulation events. These predictive and detecting models comprise of Artificial Intelligence (AI) algorithms that require improvements for data reduction, universal prediction and compatibility. The review also covers several sensor-based techniques, different geostatistical-based models and Pressure-While-Drilling (PWD) tools for their applications in early loss circulation detection. In addition, loss circulation zones types, severity level, scenario and common preventive measures are also included in this review. This study aims to provide a systematic review of the published literature from the last forty years on the developed conventional and intelligent models for detection and prediction of fluid loss events and emphasizes on increasing AI involvement for precise results. © 2020 Elsevier B.V.
N1  - cited By 17
ER  -