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Measurement of Gas-Phase Velocities in Two-Phase Flow Using Distributed Acoustic Sensing

2023; IEEE Sensors Council; Volume: 23; Issue: 4 Linguagem: Inglês

10.1109/jsen.2022.3232269

1558-1748

Guilherme Heim Weber, Eduardo Nunes dos Santos, Danilo Fernandes Gomes, Ana Luiza Beltrão Santana, Jean Carlos Cardozo da Silva, Cícero Martelli, Daniel Rodrigues Pipa, Rigoberto Morales, Sérgio Taveira de Camargo, Manoel Feliciano da Silva, Marco J. da Silva,

Drilling and Well Engineering

From wells to refining plants and distribution networks, operations in the oil and gas industry involve the transport of multiphase mixtures through long pipelines. One of the most representative patterns is the so-called slug flow, which is characterized by the intermittent passage of gaseous and liquid structures. The monitoring of slug flows allows for proper control and safety in many operations in the oil and gas industry. In recent years, distributed acoustic sensing (DAS) has emerged as a promising technology for industrial use and is applied here for flow monitoring. Namely, this article introduces the use of DAS for the measurement of slug flow. A number of flow configurations under controlled conditions are investigated. Measurements were carried out in a 9-m horizontal pipeline Section in a flow-loop laboratory. Fiber optics were helically wrapped along the outer surface of the pipeline to promote higher sensitivity at a higher spatial resolution space. The velocity of the gas phase given by the elongated bubbles velocity is estimated from DAS data through radial integration in ${k}$ – ${f}$ space and distributed cross correlation methods. Using measurements from a commercial conductance-based sensor as a reference, the results showed the root-mean-square deviation in % (RMSD%) of 8.34% and 12.18%. The cross correlation method has the clear advantage of being able to yield (spatial) distributed data.