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边坡变形的分布式光纤监测试验研究及实践 总被引:1,自引:0,他引:1
布里渊光时域反射计(BOTDR)是一项新型光电传感仪器,可对沿光纤的轴向应变进行分布式监测。该技术采用光纤作为传感和传输介质,具有良好的抗干扰、长距离、可植入性和分布式监测等特点。本文总结了近几年来分布式光纤在边坡工程中监测的工程实践和试验研究结果。实践表明,将光纤传感器铺设在加固边坡的锚杆和框架梁中,在加固边坡的同时进行安全监测,可以取得良好的效果;而将光纤直接铺设在边坡浅层土体中进行监测,可以及时对边坡安全提供预警,但往往不利于长期监测。本文还介绍了将光纤传感器布设在用于加固边坡的土工织物中进行安全监测的室内试验研究。实验证明,不同的光纤类型、布设方法、土工织物性能等都会对监测结果产生影响。最后分析了分布式光纤监测在岩土工程监测中的应用前景,以及今后研究的关键技术问题。 相似文献
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光纤健康监测方法在土木工程中的研究与应用进展 总被引:25,自引:0,他引:25
在土木工程领域,光纤智能健康监测方法是对建筑物或构筑物的健康状况进行检测的一种新方法。本文首先论述了光纤智能健康监测系统的构成,然后对国内外光纤健康监测系统在土木结构中的研究与应用进行了回顾,介绍了光纤传感器的种类、原理、特点和当前应用的状况,重点介绍了光纤位移传感器和布拉格光栅(Bragg grating)应变传感器,最后展望了光纤智能健康监测方法在土木结构中的应用前景。 相似文献
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土木工程结构安全性评估、健康监测及诊断述评 总被引:106,自引:6,他引:106
阐述了土木工程结构的安全性评估、健康监测及损伤诊断的必要性和迫切性,系统论述了结构健康监测和诊断的概念、理论和方法,重点讨论了传感器的优化布置、损伤识别等健康监测中的关键问题,介绍了光纤等新型传感器的应用情况,最后指出了值得进一步研究的问题。 相似文献
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分布式光纤声波传感器(Distributed Acoustic Sensing,DAS)是近年来兴起的超密集地震观测系统,具有一系列观测密度高、观测成本低、耐受恶劣环境等优势,在油气行业得到了广泛应用,也引起了天然地震学界的关注.本文简要回顾了DAS系统的测量原理、发展历程、技术方案、介绍了测量原理及其响应特性,然后围绕多个观测实验,介绍浅部结构成像、深部结构探测和地震监测三个方向的典型应用实例,最后讨论了DAS系统在天然地震学研究中应用面临的挑战和发展趋势. 相似文献
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埋地生命线管道系统智能监测的初步研究 总被引:2,自引:1,他引:2
智能材料在土木工程和防灾减灾工程中的应用是未来土木工程和减灾科学领域发展的重要方向,本文对光纤传感技术在埋地生命线管道系统抗震防灾方面的作用作了初步的研究。对光纤传感器应用于埋地生命线系统中存在的主要问题作了分析,提出了实施埋地生命线系统智能监测的方案。 相似文献
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Techniques for characterizing the hydraulic properties and groundwater flow processes of aquifers are essential to design hydrogeologic conceptual models. In this study, rapid time series temperature profiles within open‐groundwater wells in fractured rock were measured using fiber optic distributed temperature sensing (FO‐DTS). To identify zones of active groundwater flow, two continuous electrical heating cables were installed alongside a FO‐DTS cable to heat the column of water within the well and to create a temperature difference between the ambient temperature of the groundwater in the aquifer and that within the well. Additional tests were performed to examine the effects of pumping on hydraulic fracture interconnectivity around the well and to identify zones of increased groundwater flow. High‐ and low‐resolution FO‐DTS cable configurations were examined to test the sensitivities of the technique and compared with downhole video footage and geophysical logging to confirm the zones of active groundwater flow. Two examples are presented to demonstrate the usefulness of this new technique for rapid characterization of fracture zones in open boreholes. The combination of the FO‐DTS and heating cable has excellent scope as a rapid appraisal tool for borehole construction design and improving hydrogeologic conceptual models. 相似文献
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地震波场可分解为三分量平动和三分量旋转运动.旋转分量包含重要的波场梯度信息,是地震波场重建的关键要素,但过去由于缺乏稳定的高灵敏度旋转测量仪器,它在不同的地震学应用中常被忽略.光纤旋转地震仪是率先打破测量仪器缺乏困境、最先实现商业化的旋转地震仪,也是目前最有发展前景的地震波旋转直接测量设备.光纤旋转地震仪基于Sagnac效应,并依托成熟的光纤陀螺技术实现振动的旋转分量测量.它具有纯光电传感不受平动影响的测量优势;并且能够在高灵敏度和宽频带旋转测量的基础下实现设备的小型化,有利于旋转测量的应用推广.因此,光纤旋转地震仪和传统的地震仪将形成互补,实现旋转和平动六分量(6C)的观测,更好地提取地震波场特征,提高振动监测能力,有效改善震源过程反演、地下结构成像和地震破坏机理研究等应用.本文主要介绍光纤旋转测量的基本原理、旋转地震学的应用及其潜在应用前景. 相似文献
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Permanent downhole sensors provide the eyes and ears to the reservoir and enable monitoring the reservoir conditions on a real‐time basis. In particular, the use of sensors and remotely controlled valves in wells and on the surface, in combination with reservoir flow models provide enormous benefits to reservoir management and oil production. We suggest borehole radar measurements as a promising technique capable to monitor the arrival of undesired fluids in the proximity of production wells. We use 1D modelling to investigate the expected signal magnitude and depth of investigation of a borehole radar sensor operating in an oilfield environment. We restrict the radar applicability to environments where the radar investigation depth can fit the reservoir size necessary to be monitored. Potential applications are steam chamber monitoring in steam assisted gravity drainage processes and water front monitoring in thin oil rim environments. A more sophisticated analysis of the limits of a radar system is carried out through 2D finite‐difference time‐domain simulations. The metal components of the wellbore casing can cause destructive interference with the emitted signal. A high dielectric medium surrounding the production well increases the amplitude of the signal and so the radar performance. Other reservoir constraints are given by the complexity of the reservoir and the dynamic of the fluids. Time‐lapse changes in the heterogeneity of the background formation strongly affect the retrieval of the target reflections and gradual fluid saturation changes reduce the amplitudes of the reflections. 相似文献
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Obstacles to long‐term soil moisture monitoring with heated distributed temperature sensing 
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下载免费PDF全文 The field deployment of a heated distributed temperature sensor (DTS) for over three years has revealed two obstacles to estimating soil moisture (θ) that may hamper subsurface DTS applications as well as use of other subsurface thermal probes. The first observed obstacle was a hysteretic response of the DTS sensor. The relationship between θ and the temperature response (?T) within the cable was not only dependent on θ of the soil, but also on the previous wetting and drying cycles leading to that state. The second observed obstacle was soil structure healing. Soil structure healing causes the relationship between ?T and θ to evolve through time; this calibration curve becomes flatter, or less sensitive, as the surrounding soil makes better contact with the cable. Effects of the hysteretic response of the instrument and soil structure healing are largely the result of small gaps between the cable and soil. These small gaps can be approximated by a contact resistance between the cable and soil. In this article we characterize the occurrence of hysteretic and soil structure healing effects from field data and parameterize contact resistance by simulating heat transfer using a numerical modelling approach Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
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新世纪第二个五年测井技术的若干进展 总被引:1,自引:0,他引:1
本文对新世纪第二个五年测井技术的进展进行评述,分析电缆测井、随钻测井、地层测试等井筒探测技术的发展状况,介绍了一些最新的测井仪器和测井方法,重点讨论了测井技术在地层各向异性探测方向的进展.此外对井下永久传感器网络技术,噪声测井,重力测井,过钻头测井的进展进也行了介绍. 相似文献
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The development of large ring lasers made it possible for accurate detection of rotational seismic waves over a wide range of amplitudes and frequencies. Due to their insensitivity to translational motion the optical angular rate sensors are very attractive for application in seismology, geodesy, and even fundamental physics. However, the operation of the large ring lasers in the near-field is difficult due to their mass, size and, environmental requirements. Hence, the fiber-optic gyros may be used for seismic applications, where the mobility is more important and where the high rotation rates are expected. This kind of sensors also can be used for correction of standard seismometers subjected to tilt. In this paper we present the current state of experimental research dedicated to application of fiber-optic gyros for seismology. The test results demonstrate that the tactical grade optical sensors are capable of successfully measuring small rotation fluctuations down to 10?5 rad/s. However, the seismometer correction seems only feasible in the range of rotation rates about 10?3 rad/s and higher. This limitation is caused by the excessive noise in the output of the fiber-optic gyro. The possible measures to overcome this problem are discussed as well as advantages of optical gyros for strong motion seismology. 相似文献
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泰安台压容差应变仪1991年投入观测以来,为确保资料正常、连续,对井上仪器,探头引线及井下探头3个环节的干扰因素进行了排除工作。整点值资料已连续4年,缺数不超过48小时,采用多种方法判定异常,发现改进的多道维纳滤波方法处理的资料,对400km范围内的中旨地震有明显的异常显示。 相似文献
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Fluid Pressure Variation in a Sedimentary Geothermal Reservoir in the North German Basin: Case Study Groß Schönebeck 总被引:1,自引:0,他引:1
Ernst Huenges Ute Trautwein Björn Legarth Günter Zimmermann 《Pure and Applied Geophysics》2006,163(10):2141-2152
The Rotliegend of the North German basin is the target reservoir of an interdisciplinary investigation program to develop a technology for the generation of geothermal electricity from low-enthalpy reservoirs. An in situ downhole laboratory was established in the 4.3 km deep well Groβ Schönebeck with the purpose of developing appropriate stimulation methods to increase permeability of deep aquifers by enhancing or creating secondary porosity and flow paths. The goal is to learn how to enhance the inflow performance of a well from a variety of rock types in low permeable geothermal reservoirs. A change in effective stress due to fluid pressure was observed to be one of the key parameters influencing flow properties both downhole and in laboratory experiments on reservoir rocks. Fluid pressure variation was induced using proppant-gel-frac techniques as well as waterfrac techniques in several different new experiments in the borehole. A pressure step test indicates generation and extension of multiple fractures with closure pressures between 6 and 8.4 MPa above formation pressure. In a 24-hour production test 859 m3 water was produced from depth indicating an increase of productivity in comparison with former tests. Different depth sections and transmissibility values were observed in the borehole depending on fluid pressure. In addition, laboratory experiments were performed on core samples from the sandstone reservoir under uniaxial strain conditions, i.e., no lateral strain, constant axial load. The experiments on the borehole and the laboratory scale were realized on the same rock types under comparable stress conditions with similar pore pressure variations. Nevertheless, stress dependences of permeability are not easy to compare from scale to scale. Laboratory investigations reflect permeability variations due to microstructural heterogeneities and the behavior in the borehole is dominated by the generation of connections to large-scale structural patterns. 相似文献
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Experimental study on the performance of an azimuthal acoustic receiver sonde for a downhole tool 下载免费PDF全文
下载免费PDF全文 Xiaohua Che Wenxiao Qiao Xiaodong Ju Jinping Wu Baiyong Men 《Geophysical Prospecting》2017,65(1):158-169
A new azimuthal acoustic receiver sonde with a body and corresponding circuits was designed for a downhole tool. The 64‐sensor receiver sonde holds eight receiver stations that can be combined into at least 64 three‐sensor receiver subarrays. As a result, the receiver sonde can use different sensor combinations instead of different transducer types to produce multiple modes, including a phased azimuthal reception mode and conventional monopole, dipole, and quadruple modes. Laboratory measurements were conducted to study the performance of the azimuthal acoustic receiver sonde for a downhole tool, and the experimental results indicate that the receiver sonde provides a consistent reception performance. Individual sensors receive similar time‐domain waveforms, and their corresponding frequency bands and sensitivities are consistent within the measurement errors of around 5%. The direction of the reception main lobe is approximately parallel to its exterior normal direction. In addition, a receiver subarray with three sensors receives waveforms that have higher energy and narrower beamwidths. For individual sensors, the angular width of the dominant reception lobe is 191.3° on average, whereas that of the individual receiver subarrays is approximately 52.1° on average. The amplitude of the first arrival received by the receiver subarray centred at the primary sensor directly pointing to the source is approximately 2.2 times the average amplitude of the first arrivals received by the other receiver subarrays in the same receiver station. Thus, the maximum amplitude of the waveforms received by the receiver subarrays can be used to determine the direction of the incident waves. This approach represents a promising method for determining the reflector azimuth for acoustic reflection logging and three‐dimensional acoustic logging. 相似文献
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油气井永久性光纤Bragg光栅传感监测系统的安装设计是现场应用的一个重要组成部分,也是工艺最复杂、成本最昂贵的一个环节.本文简要地回顾了油气井光纤Bragg光栅传感监测系统安装现状,根据国内常用射孔完井方式,设计了两种单井光纤Bragg光栅井下安装模型.论述了井下安装前准备工作和主要注意事项,讨论了存在问题,对油气井永久性光纤Bragg光栅传感监测技术及其安装技术的前景进行了展望. 相似文献