Chris Minto scite author profile

Chris Minto

5Publications

38Citation Statements Received

39Citation Statements Given

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Dynamic structural health monitoring of a model wind turbine tower using distributed acoustic sensing (DAS)

Hubbard

Zhang

et al. 2021

J Civil Struct Health Monit

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Maintenance of wind turbine towers is currently a manual process that requires visual inspection and bolt tightening yearly. This process is costly to energy companies and its necessity is not well-defined. In this study, two Rayleigh-based distributed fiber optic sensing technologies are evaluated and compared for their ability to monitor the dynamic structural behavior of a model wind turbine tower subject to free and forced vibration. They are further tested for their ability to detect structural phenomena associated with loose bolts and material damage within the tower. The two technologies examined are optical frequency domain reflectometry (OFDR) and phase-based optical time domain reflectometry ($$\phi$$ ϕ -OTDR), which is a technology used in distributed acoustic sensing (DAS). OFDR is a tested and proven strain measurement technology commonly used for structural health monitoring but can only make strain measurements over short distances (10 s of meters). OFDR was used to validate the measurements made with $$\phi$$ ϕ -OTDR which can measure over much longer distances (several kilometers). Due to its sensing distance capability, $$\phi$$ ϕ -OTDR is a promising technology for monitoring many wind turbines networked together with a single fiber optic cable. This study presents a first-of-its-kind use of $$\phi$$ ϕ -OTDR for structural health monitoring to demonstrate its capabilities.

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Using Fibre Optic Cables To Deliver Intelligent Traffic Management In Smart Cities

Hall¹,

Minto²

2019

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Fibre Optic Four Mode Leak Detection for Gas, Liquids and Multiphase Products

Worsley¹,

Minto²,

Hill³

et al. 2014

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Many variants of pipeline line leak detection systems are in operation today on liquid or gas pipelines. These often rely upon a single leak detection methodology. This could include; CPM, Mass Balance, Acoustic, Flow or Temperature Monitoring. Latest developments in fibre optic technology now mean that a number of these methods can be combined in a single system. Fibre Optic Distributed Acoustic Sensing (DAS) is able to use the following measurands to detect within leaks seconds with a location accuracy of 10 meters. DAS detects the following signatures of a leak; Acoustic Anomaly; Temperature Gradient, External Ground changes and Negative Pressure Pulse. By fusing these signatures together DAS is able to provide a sensitive yet robust and reliable leak detection solution. Added benefits of the system are also the traditional security aspects that help prevent as opposed to detect pipeline damage as well as Inline Inspection Gauge Tracking through the same hardware set. This paper examines the methodologies used to detect leaks in all phases of products. Discusses the industry led tests conducted so far and provides real life evidence of leaks detected in the field.

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OptaSense[reg ] Distributed Acoustic Sensing (DAS) System for the Power Network - Integrated SMART-Sensing REAL TIME MONITORING

Singh¹,

Minto²,

Godfrey³

2015

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Distributed acoustic sensing for active offshore shear wave profiling

Trafford

Ellwood²,

Wacquier

et al. 2022

Sci Rep

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The long-term sustainability of the offshore wind industry requires the development of appropriate investigative methods to enable less conservative and more cost-effective geotechnical engineering design. Here we describe the novel use of distributed acoustic sensing (DAS) as part of an integrated approach for the geophysical and geotechnical assessment of the shallow subsurface for offshore construction. DAS was used to acquire active Scholte-wave seismic data at several locations in the vicinity of a planned windfarm development near Dundalk Bay, Irish Sea. Complimentary additional datasets include high-resolution sparker seismic reflection, cone penetration test (CPT) data and gravity coring. In terms of fibre optic cable selection, a CST armoured cable provided a reasonable compromise between performance and reliability in the offshore environment. Also, when used as a seismic source, a gravity corer enabled the fundamental mode Scholte-wave to be better resolved than an airgun, and may be more suitable in environmentally sensitive areas. Overall, the DAS approach was found to be effective at rapidly determining shear wave velocity profiles in areas of differing geological context, with metre scale spatial sampling, over multi-kilometre scale distances. The application of this approach has the potential to considerably reduce design uncertainty and ultimately reduce levelised costs of offshore wind power generation.

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Chris Minto

Dynamic structural health monitoring of a model wind turbine tower using distributed acoustic sensing (DAS)

Using Fibre Optic Cables To Deliver Intelligent Traffic Management In Smart Cities

Fibre Optic Four Mode Leak Detection for Gas, Liquids and Multiphase Products

OptaSense[reg ] Distributed Acoustic Sensing (DAS) System for the Power Network - Integrated SMART-Sensing REAL TIME MONITORING

Distributed acoustic sensing for active offshore shear wave profiling

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