Litcius/Paper detail

An Efficient Method for Detection and Quantitation of Underwater Gas Leakage Based on a 300-kHz Multibeam Sonar

Wanyuan Zhang, Tian Zhou, Jianghui Li, Chao Xu

2022Remote Sensing16 citationsDOIOpen Access PDF

Abstract

In recent years, multibeam sonar has become the most effective and sensitive tool for the detection and quantitation of underwater gas leakage and its rise through the water column. Motivated by recent research, this paper presents an efficient method for the detection and quantitation of gas leakage based on a 300-kHz multibeam sonar. In the proposed gas leakage detection method based on multibeam sonar water column images, not only the backscattering strength of the gas bubbles but also the size and aspect ratio of a gas plume are used to isolate interference objects. This paper also presents a volume-scattering strength optimization model to estimate the gas flux. The bubble size distribution, volume, and flux of gas leaks are determined by matching the theoretical and measured values of the volume-scattering strength of the gas bubbles. The efficiency and effectiveness of the proposed method have been verified by a case study at the artificial gas leakage site in the northern South China Sea. The results show that the leaking gas flux is approximately between 29.39 L/min and 56.43 L/min under a bubble radius ranging from 1 mm to 12 mm. The estimated results are in good agreement with the recorded data (32–67 L/min) for gas leaks generated by an air compressor. The experimental results demonstrate that the proposed method can achieve effective and accurate detection and quantitation of gas leakages.

Topics & Concepts

Target strengthLeakage (economics)SonarUnderwaterBubbleAcousticsPlumeGas compressorMaterials scienceEnvironmental scienceRADIUSVolume (thermodynamics)Gas bubbleScatteringMarine engineeringGeologyMechanicsOpticsComputer sciencePhysicsMeteorologyAerospace engineeringEngineeringEconomicsBiologyFish <Actinopterygii>OceanographyFisheryComputer securityMacroeconomicsQuantum mechanicsUnderwater Acoustics ResearchUnderwater Vehicles and Communication SystemsOil Spill Detection and Mitigation