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Development and Evaluation of the Bender Type Piezoelectric Energy Harvester According to Installation Methods and Vehicle Weight
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 Title & Authors
Development and Evaluation of the Bender Type Piezoelectric Energy Harvester According to Installation Methods and Vehicle Weight
Kim, Chang-Il; Jeong, Young-Hun; Yun, Ji-Sun; Cho, Jeong-Ho; Paik, Jong-Hoo; Jang, Yong-Ho; Choi, Beom-Jin; Park, Shin-Seo; Cho, Young-Bong;
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 Abstract
A road energy harvester was designed and fabricated to convert mechanical energy from the vehicle load to electrical energy. The road energy harvester is composed of 20 piezoelectric materials. This study attempted to evaluate output depending on pavement materials when paving road piezoelectric energy harvester in the road. Harvester is the bender type and is the method of supporting the both ends of piezoelectric material and applying the load in the middle part. Harvester was paved in the type paved with asphalt, type paved with cement and in the exposed type not covering the top of harvester. The output characteristics were compared and evaluated depending on changes in vehicle load and vehicle speed changes. As vehicles, truck (11.9 ton), SUV(1.6 ton) and sedan (1.5 ton) were used and the output characteristics when driving at the interval of 10 km/h from 10 km/h to 100 km/h were evaluated.
 Keywords
Piezoelectric transducer;Energy harvesting;Vehicle;Paving;Road;
 Language
Korean
 Cited by
1.
전력계통 구조물의 상태진단용 자가발전 무선 센서 노드 개발 및 평가,김창일;정영훈;윤지선;홍연우;장용호;최범진;박신서;손천명;서덕기;백종후;

센서학회지, 2016. vol.25. 5, pp.371-376 crossref(new window)
2.
가로등 제어용 다층패드형 압전 하베스터의 개발 및 평가,김창일;정영훈;박운익;조정호;장용호;최범진;박신서;백종후;

한국전기전자재료학회논문지, 2016. vol.29. 11, pp.696-701 crossref(new window)
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