Energy Harvesting to Power Sensing Hardware Onboard Wind Turbine Blade

Carlson, Clinton; Schlichting, Alexander; Ouellette, Scott; Farinholt, Kevin; Park, Gyuhae

doi:10.1007/978-1-4419-9716-6_27

Cited by 10 publications

(9 citation statements)

References 6 publications

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“…A more detailed description of the energy harvester, including its analytical model and experimental verification has previously been presented by the authors [18]. Researchers have also worked to develop broadband vibrational energy harvesters [9].…”

Section: Energy Harvestingmentioning

confidence: 99%

“…This study focused primarily on energy harvesting from ambient vibrations using piezoelectric materials. However, researchers have obtained good results by combining independent ambient energy harvesting techniques, utilizing thermoelectric materials exhibiting a high Seebeck coefficient (such as bismuth telluride), as well as conventional photovoltaic solar cells [9].…”

Section: Energy Harvesting Overviewmentioning

confidence: 99%

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Wireless energy transmission to supplement energy harvesters in sensor network applications

et al. 2010

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In this paper we present a method for coupling wireless energy transmission with traditional energy harvesting techniques in order to power sensor nodes for structural health monitoring applications. The goal of this study is to develop a system that can be permanently embedded within civil structures without the need for on-board power sources. Wireless energy transmission is included to supplement energy harvesting techniques that rely on ambient or environmental, energy sources. This approach combines several transducer types that harvest ambient energy with wireless transmission sources, providing a robust solution that does not rely on a single energy source. Experimental results from laboratory and field experiments are presented to address duty cycle limitations of conventional energy harvesting techniques, and the advantages gained by incorporating a wireless energy transmission subsystem. Methods of increasing the efficiency, energy storage medium, target applications and the integrated use of energy harvesting sources with wireless energy transmission will be discussed.

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Section: Energy Harvestingmentioning

confidence: 99%

Section: Energy Harvesting Overviewmentioning

confidence: 99%

Wireless energy transmission to supplement energy harvesters in sensor network applications

et al. 2010

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“…In order to provide enough power to the sensors without using batteries, piezoelectric, thermoelectric and photovoltaic energy harvesting techniques were assessed in [163], on a cross section of a CX-100 WT blade. The aim was to determine the feasibility of powering individual nodes that would compose the sensor network.…”

Section: Data Collection and Storagementioning

confidence: 99%

Structural health monitoring of offshore wind turbines: A review through the Statistical Pattern Recognition Paradigm

Martínez-Luengo

Kolios

Wang

2016

Renewable and Sustainable Energy Reviews

224

124

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“…This study focuses primarily on energy harvesting from * farinholt@lanl.gov ambient vibrations using piezoelectric materials. However, researchers have obtained good results by combining independent ambient energy harvesting techniques, utilizing thermoelectric materials exhibiting a high Seebeck coefficient (such as bismuth telluride), as well as conventional photovoltaic solar cells [5].…”

Section: Energy Harvestingmentioning

confidence: 99%

Hybrid energy sources for embedded sensor nodes

Silva

Farinholt

Park

2011

Industrial and Commercial Applications of Smart Structures Technologies 2011

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In this paper, we present a series of hybrid energy configurations that are designed to provide a robust power source for embedded sensing hardware. The proper management of energy resources is a critical component in the design of any deployed sensing network. For systems that are installed in remote or inaccessible locations, or those with an operational lifespan that exceeds traditional battery technologies, energy harvesting is an attractive alternative. Unfortunately, the dependence on a single energy source (i.e. solar) can cause potential problems when environmental conditions preclude the system from operating at peak performance. In this paper we consider the use of a hybrid energy source that extracts energy from multiple sources and uses this collective energy to power sensing hardware. The sources considered in this work include: solar, vibration, thermal gradients, and RF energy capture. Methods of increasing the efficiency, energy storage medium, target applications and the integrated use of energy harvesting sources with wireless energy transmission will be discussed.

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Energy Harvesting to Power Sensing Hardware Onboard Wind Turbine Blade

Cited by 10 publications

References 6 publications

Wireless energy transmission to supplement energy harvesters in sensor network applications

Wireless energy transmission to supplement energy harvesters in sensor network applications

Structural health monitoring of offshore wind turbines: A review through the Statistical Pattern Recognition Paradigm

Hybrid energy sources for embedded sensor nodes

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