Real-time monitoring of multiphase fluid flows with distributed fibre optic sensing has the potential to play a major role in industrial flow
Note that by placing the optical fiber inside the PTFE tubing, an efficient thermal transfer from the fluid to the optical fiber could be secured. This is indeed essential for a reliable sensing, especially for high
This article presents the development of a smart structure comprising a hydraulic metering arrangement for simultaneous data readings of temperature, flow rate, salinity, pH, and
An optical fiber sensor was proposed and studied for the simultaneous measurement of flow rate and temperature. It includes a capillary steel tube, an adjustable target and two fiber Bragg
Optical fiber sensing is a passive, distributed, and high precision sensing technology, which is widely used in pipeline leak detection and perimeter sensing [4, 5]. In addition to monitoring the external
Brief theory of sensing principle, fabrication method, applications, advantages and disadvantages of the different fiber-optic sensors, are
In recent years, the research around fiber optic sensing technology in the field of physical ocean observation has received increasing attention from
Distributed optical fiber sensors characterized by spatially resolved measurements along a single continuous strand of optical fiber have undergone
In this work, we have proposed and demonstrated a distributed microstructure optical fiber acoustic sensor (MOF-DAS)-based pipeline flow rate sensing system. Such proposed sensing
In this paper, advanced distributed fiber-optic liquid flow rate sensing is realized utilizing optical carrier microwave interferometry (OCMI). The liquid flow-induced strain theory for double
This study focuses on applying fiber optic technologies for flow monitoring within an EGS system at Fervo Energy Project Red. This pioneering commercial project successfully utilized horizontal wells
Subject-matter experts from industry and academia advanced distributed fiber-optic sensing technologies and their implementation in flow
Optical fiber sensors present several advantages in relation to other types of sensors. These advantages are essentially related to the optical fiber
We have numerically and experimentally investigated the flow rate measurement of the pipeline based on the optical fiber. Employing the large
Optical fibers have been extensively employed for the development of sensors due to their compact size, immunity to electromagnetic interference, high sensitivity, and multiplexing
We have numerically and experimentally investigated the flow rate measurement of the pipeline based on the optical fiber. Employing the large eddy simulation (LES) model, we have quantitatively
The liquid flow-induced strain theory for double-coated optical fibers is deduced, and the response of the dip frequency shift in microwave interferograms to the liquid flow rate is explored.
Abstract and Figures We have numerically and experimentally investigated the flow rate measurement of the pipeline based on the optical fiber.
In recent years, optical fiber sensors have emerged as a promising technology for water velocity measurement because of their high sensitivity, fast response time, and ability to measure
Monitoring fluid flow rates is imperative for a variety of industries including biomedical engineering, chemical engineering, the food industry, and the oil and gas industries. We propose a flow meter
In this paper, a new type of distributed optical fiber flow sensing system is designed, and the pipeline fluid simulation model is established based
The accurate monitoring of flow velocity is crucial in applications such as blood microcirculation and microfluidic systems. However, the high
ive denoising algorithm for monitoring the flow rate in a pipeline by the optical fiber. By using the Fluent software, we have quantitatively analyzed the turbulent fluctuation in the pipeline, and the simulation
To address these issues, this study employs distributed optical fiber sensors (DOFSs) for measuring flow velocity in water-filled pipes, and the effectiveness is validated by the fiber Bragg grating (FBG)
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