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ClosedGrantWon by INTELLIGENT FIBER OPTIC SYSTEMS CORPSBIR Phase I STTR

Fiber-Optic Sensing System for Wind Turbine Prognostics Using Artificial Intelligence

Department of Energy

Closed
NAICS 541715
Source: sbir_sttr
OverviewIntelligenceProposals

Key Details

Posted Date
Response Deadline
NAICS Code
541715
Source
sbir_sttr
Award Amount
$199,941
Awarded To
INTELLIGENT FIBER OPTIC SYSTEMS CORP

Description

In order to ensure the reliability and optimum performance of distributed, land-based, and offshore wind turbine assets over at least two to three decade lifetimes, DOE seeks technology innovations to address wind turbine challenges such as analysis of data from Supervisory Control and Data Acquisition (SCADA) systems for prognostic health management or intelligent assessment of environmental sensor data using artificial intelligence. General statement of how this problem is being addressed IFOS proposes an innovative, robust and cost-effective end-to-end Fiber Bragg Grating (FBG) integrated sensor system capable of providing real-time, in-situ defect detection, localization, and quantification of damage combined with predictive intelligent diagnostics. This technology allows non-destructive monitoring of wind turbine blades and bearings in real time, during and after manufacturing, transportation, installation and operation. This improves reliability, reduces cost of ownership (CoO), and lowers levelized cost of electricity (LCOE) of wind power systems. The IFOS solution utilizes improvements in sensing and interrogation, such as higher signal to noise ratio and sensitivity. Enhanced data analysis using Wavelet Transform and machine learning / artificial intelligence-based algorithms improve defect and damage location analysis and system prognosis. This improves sensing in strongly attenuating materials. It will provide real-time online monitoring of wind turbine blades and bearings by detecting minor changes in structural and material strain response. Strain data offer vital structural health information for safe wind turbine operation, allowing for informed preventive maintenance decisions as well as avoidance of catastrophic field failures. Accurate real-time measurement of strain values, as an indicator of structural health state, is crucial to the success of the monitoring process. The system will be designed for interfacing with existing sensing arrangements in the turbine, including environmental sensors. The specification of the system will take input from stakeholders such as wind turbine manufacturers and operators. This development will enable performance optimization and improved system reliability of land-based and off-shore wind turbines through early defect and damage detection in turbine blades and bearings. IFOS’ solution can gain broad adoption across the renewable energy industry. In Phase I, IFOS in collaboration with National Renewal Energy Lab (NREL) will demonstrate feasibility of this innovative health monitoring system on composite test articles including a scaled wind turbine blade and bearing system. In Phase II, IFOS seeks to deploy and field-test an integrated engineering prototype system in collaboration with NREL and a wind turbine manufacturer. Commercial Applications and Other Benefits Cost-effective and robust real-time monitoring of the condition of wind turbine blades and bearings is the commercial application of the proposed innovation. Variants of the proposed technology platform could be used to monitor the health of other components of the power distribution infrastructure. Immunity to electromagnetic interference (EMI) makes fiber-optic sensors ideal for monitoring transmission lines, transformers, generators and other electrical systems. The ability to make measurements over extended kilometer-scale distances and safe ignition-proof operation makes them well suited for pipeline monitoring, including natural gas distribution. Finally, extreme high-temperature capability makes the IFOS solutions ideal for monitoring high-temperature assets such as gas turbines and power plants

Key Dates

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Fiber-Optic Sensing System for Wind Turbine Prognostics Usin — Department of Energy | Bureauify