Development and Analysis of a Distributed Leak Detection and Localisation System for Crude Oil Pipelines

Crude oil leakages and spills (OLS) are some of the problems attributed to pipeline failures in the oil and gas industry's midstream sector. Consequently, they are monitored via several leakage detection and localisation techniques (LDTs) comprising classical methods and, recently, Internet of...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2023-04, Vol.23 (9), p.4298
Main Authors: Ahmed, Safuriyawu, Le Mouël, Frédéric, Stouls, Nicolas, Lipeme Kouyi, Gislain
Format: Article
Language:English
Subjects:
Accuracy
Analysis
Communication
Computer Science
Crude oil
crude oil pipelines
Data correlation
Design
distributed leakage detection
distributed leakage localisation
distributed systems
Distributed, Parallel, and Cluster Computing
Efficiency
Energy consumption
Failure
False alarms
Fluid dynamics
Gas industry
Gas pipelines
Gases
Geospatial data
Internet of Things
IoT-based monitoring systems
Leak detection
Localization
Losses
Mobile Computing
Monitoring systems
Networking and Internet Architecture
Oil spills
Operating Systems
Petroleum
Petroleum industry
Petroleum pipelines
Pipe lines
Radio frequency identification
Remote sensing systems
Robots
Satellites
Security personnel
Sensors
Spatial data
Surveillance
Ubiquitous Computing
Unmanned aerial vehicles
Wireless sensor networks
WSN
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Description
Summary:Crude oil leakages and spills (OLS) are some of the problems attributed to pipeline failures in the oil and gas industry's midstream sector. Consequently, they are monitored via several leakage detection and localisation techniques (LDTs) comprising classical methods and, recently, Internet of Things (IoT)-based systems via wireless sensor networks (WSNs). Although the latter techniques are proven to be more efficient, they are susceptible to other types of failures such as high false alarms or single point of failure (SPOF) due to their centralised implementations. Therefore, in this work, we present a hybrid distributed leakage detection and localisation technique (HyDiLLEch), which combines multiple classical LDTs. The technique is implemented in two versions, a single-hop and a double-hop version. The evaluation of the results is based on the resilience to SPOFs, the accuracy of detection and localisation, and communication efficiency. The results obtained from the placement strategy and the distributed spatial data correlation include increased sensitivity to leakage detection and localisation and the elimination of the SPOF related to the centralised LDTs by increasing the number of node-detecting and localising (NDL) leakages to four and six in the single-hop and double-hop versions, respectively. In addition, the accuracy of leakages is improved from 0 to 32 m in nodes that were physically close to the leakage points while keeping the communication overhead minimal.
ISSN:1424-8220
1424-8220
DOI:10.3390/s23094298