Distributed Brillouin optical fiber temperature sensor for groundwater flow measurement

European Workshop on Optical Fibre Sensors Pub Date : 2023-05-23 DOI:10.1117/12.2679978

M. Romanet, Alexandre Matic, M. Zerbib, K. Phan Huy, Jordan Labbe, Hélène Celle, J. Beugnot

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Abstract

We demonstrate the potential of Brillouin distributed fiber sensor for the measurement of groundwater flow in an experimental site of Port Douvot close to the city of Besan¸con. The flow measurement is obtained by using active heating method based on heat pulse instrument. An industrial sensor cable with single mode fiber and multimode fiber was immersed on ground. We compare distributed Brillouin sensor reflectometry (BOTDR) and Analysis (BOTDA) on single mode fiber (SMF) and multimode optical fiber (MMF) with a spatial resolution of 1 m, a temperature resolution of 0.2 °C and an acquisition time of 1 min. These parameters are compatible with hydrology application. Active heating of borehole water in conjunction with fiber optic distributed temperature sensor measurements are realized. Contrary to Raman based distributed temperature sensor, Brillouin instrument allows measuring absolute temperature measurement and simplify the implementation on the setup. We demonstrate in this paper that Brillouin scattering based temperature sensor can be used for hydrogeology application.

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用于地下水流量测量的分布式布里渊光纤温度传感器

我们在贝桑市附近杜沃特港的一个实验场地展示了布里渊分布式光纤传感器测量地下水流量的潜力。采用基于热脉冲仪的主动加热法进行流量测量。将单模光纤和多模光纤组成的工业传感器电缆埋入地面。我们比较了单模光纤(SMF)和多模光纤(MMF)上的分布式布里渊传感器反射(BOTDR)和分析(BOTDA)，其空间分辨率为1 m，温度分辨率为0.2°C，采集时间为1 min。这些参数与水文应用兼容。结合光纤分布式温度传感器测量，实现了井水的主动加热。与基于拉曼的分布式温度传感器不同，布里渊仪可以测量绝对温度，并简化了设置上的实现。本文论证了基于布里渊散射的温度传感器可用于水文地质应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European Workshop on Optical Fibre Sensors

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