A new seismic‐based monitoring approach for wind turbines

Hu, Weifei; Barthelmie, R.J.; Letson, Frederick; Pryor, Sara C.

doi:10.1002/we.2300

Cited by 11 publications

(7 citation statements)

References 46 publications

(93 reference statements)

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“…Most wind turbine towers are distributed in harsh environments, and the tower part is inevitably subjected to large fatigue loads and damage [1] , resulting in huge economic losses and high maintenance costs. Therefore, timely damage detection of wind turbine towers can reduce maintenance costs and minimize the risk of collapse [2] .…”

Section: Introductionmentioning

confidence: 99%

Research on damage detection of wind turbine tower based on OFDR

Gu,

Luo,

Han

et al. 2023

AOPC 2023: Optic Fiber Gyro

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A wind turbine tower damage detection method based on optical frequency domain reflection (OFDR) technology is proposed in this paper, which can detect structural damage position and damage degree of wind turbine towers. The damage location of the wind turbine tower structure can be accurately detected by the method with a spatial resolution of 1cm, the detection error of damage degree is less than 2.2%. This method provides a candidate solution for real-time detection of wind turbine tower damage.

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Section: Introductionmentioning

confidence: 99%

Research on damage detection of wind turbine tower based on OFDR

Gu,

Luo,

Han

et al. 2023

AOPC 2023: Optic Fiber Gyro

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“…However, maintaining floating offshore wind farms (FOWFs) to allow them to perform at their optimal level for over 25 years of service can account for 29.5% of the total lifecycle cost 2 . It has been estimated that the operations and maintenance (O&M) of onshore wind turbines account for about 25–30% of the total lifecycle cost of wind turbines, and in the case of offshore turbines, the costs are even higher, in the range of 30–35% 2,3 …”

Section: Introductionmentioning

confidence: 99%

“…2 It has been estimated that the operations and maintenance (O&M) of onshore wind turbines account for about 25-30% of the total lifecycle cost of wind turbines, and in the case of offshore turbines, the costs are even higher, in the range of 30-35%. 2,3 The O&M activities for FOWFs involve inspecting and maintaining components of the wind turbines and their subsystems to prevent and address faults. O&M activities on the turbine blades are typically performed by rope-access technicians, often working in extreme conditions and during restricted weather windows.…”

mentioning

confidence: 99%

Applications of robotics in floating offshore wind farm operations and maintenance: Literature review and trends

et al. 2022

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Marine operations required to transfer technicians and equipment represent a significant proportion of the total cost of offshore wind. The profile of sites being considered for floating offshore wind farms (FOWFs), e.g., further from the shore and in harsher environments, indicates that these costs need to be assessed by taking into account the maintenance requirements and restricted weather windows. There is an immediate need to investigate the potential use of robotic systems in the wind farm's operations and maintenance (O&M) activities, to reduce the need for costly manned visits. The use of robotic systems can be critical, not only to replace repetitive activities and bring down the levelised cost of energy but also to reduce the health and safety risks by supporting human operators in performing the desired inspections.This paper provides a review of the state of the art in the applications of robotics for O&M of FOWFs. Emerging technology trends and associated challenges and opportunities are highlighted, followed by an outline of the agenda for future research in this domain.

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“…e wind tower plays a vital role in ensuring the normal operation of the wind turbine. However, the wind turbines are often exposed to the harsh environment and subjected to large fatigue loads [4]; therefore, the wind tower may suffer serious quality problems or even collapse, causing huge economic losses. Carrying out the structural health detection and monitoring of the tower can reduce the maintenance cost and downtime of wind turbines [5], making it an indispensable and important part in wind power engineering.…”

Section: Introductionmentioning

confidence: 99%

Applicability Analysis of Inspection and Monitoring Technologies in Wind Turbine Towers

Yue

Tian

Bai

et al. 2021

Shock and Vibration

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Wind turbines are one of the key systems in wind energy development. The wind tower supporting the whole wind turbine is a towering structure, which has been affected by installation, transportation, environment, and other factors. Furthermore, it is prone to experience other quality problems that would be difficult to detect for wind turbine towers. Therefore, the key to maintain the wind tower structure and to ensure the normal operation of a wind turbine is to carry out comprehensive and detailed detection and monitoring studies during its service stage. This paper sorted out several common quality problems including structural damage, deformation, flange bolts loosening, and corrosion of wind tower and relevant research on the detection and monitoring of these quality problems. In addition, some nondestructive testing technologies are introduced, including the ultrasonic phased array, time of flight diffraction, magnetic memory, acoustic emission, fiber Bragg grating and piezoelectric impedance, and applications in wind turbine towers.

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A new seismic‐based monitoring approach for wind turbines

Cited by 11 publications

References 46 publications

Research on damage detection of wind turbine tower based on OFDR

Research on damage detection of wind turbine tower based on OFDR

Applications of robotics in floating offshore wind farm operations and maintenance: Literature review and trends

Applicability Analysis of Inspection and Monitoring Technologies in Wind Turbine Towers

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