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      KCI등재 SCIE

      Research on Output Characteristics of Double-Ended Fixed Beam Piezoelectric Energy Harvester Under Random Excitation

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      https://www.riss.kr/link?id=A106892484

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      다국어 초록 (Multilingual Abstract)

      By use of the concept of impedance, this paper establishes a random energy harvester output model of double-ended fi xed beam piezoelectric energy harvester under random White Gaussian noise excitation, which is based on the discussion of the output c...

      By use of the concept of impedance, this paper establishes a random energy harvester output model of double-ended fi xed beam piezoelectric energy harvester under random White Gaussian noise excitation, which is based on the discussion of the output characteristics infl uenced by changing vibration beam shape and piezoelectric sheet length under random excitation, while improving piezoelectric structure of double-ended fi xed beam piezoelectric energy harvester. It also deduces the output voltage, current and power of energy harvester with Fokker–Planck equation, which are verifi ed by Monte Carlo simulation and experimental testing. It can be found that improving vibration beam shape can reduce resonant frequency and increase average output power of the system. The optimal value of piezoelectric sheet length can be diff erent corresponding to diff erent structures, which proves that double-ended fi xed beam piezoelectric energy harvester under random White Gaussian noise excitation can achieve maximum output with optimal piezoelectric sheet length. In addition, in order to further improve the output performance of piezoelectric energy harvester under random excitation, it is necessary to increase the acceleration spectral density under random excitation and set an optimal value of the piezoelectric loading resistance, which is more suitable for energy harvester applied under random low-frequency environment.

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      참고문헌 (Reference)

      1 Daqaq, M. F., "Transduction of a bistable inductive generator driven by white and exponentially correlated Gaussian noise" 330 (330): 2554-2564, 2011

      2 Green, P. L., "The benefits of Duffi ng-type nonlinearities and electrical optimisation of a mono-stable energy harvester under white Gaussian excitations" 331 (331): 4504-4517, 2012

      3 Ling, C. S., "Technological challenges of developing wireless health and usage monitoring systems" 8695 : 86950K-86951K, 2013

      4 Cao, Lianmin, "Structure design and test of MEMS thermocouple infrared detector" 24 (24): 2463-2471, 2018

      5 Zhao, Z. H., "Solving of the dynamic problem of Piezo-compound structure based on FEPG" 05 : 66-70, 2008

      6 Sunithamani, S., "Simulation study on performance of MEMS piezoelectric energy harvester with optimized substrate to piezoelectric thickness ratio" 21 (21): 733-738, 2015

      7 Sebald, G., "Simulation of a Duffing oscillator for broadband piezoelectric energy harvesting" 20 (20): 075022-, 2011

      8 Daqaq, M. F., "Response of uni-modal duffing-type harvesters to random forced excitations" 329 (329): 3621-3631, 2010

      9 Karami, M. A., "Powering pacemakers from heartbeat vibrations using linear and nonlinear energy harvesters" 100 : 042901-, 2012

      10 Muthalif, A. G. A., "Optimal piezoelectric beam shape for single and broadband vibration energy harvesting : Modeling, simulation and experimental results" 54 : 417-426, 2015

      1 Daqaq, M. F., "Transduction of a bistable inductive generator driven by white and exponentially correlated Gaussian noise" 330 (330): 2554-2564, 2011

      2 Green, P. L., "The benefits of Duffi ng-type nonlinearities and electrical optimisation of a mono-stable energy harvester under white Gaussian excitations" 331 (331): 4504-4517, 2012

      3 Ling, C. S., "Technological challenges of developing wireless health and usage monitoring systems" 8695 : 86950K-86951K, 2013

      4 Cao, Lianmin, "Structure design and test of MEMS thermocouple infrared detector" 24 (24): 2463-2471, 2018

      5 Zhao, Z. H., "Solving of the dynamic problem of Piezo-compound structure based on FEPG" 05 : 66-70, 2008

      6 Sunithamani, S., "Simulation study on performance of MEMS piezoelectric energy harvester with optimized substrate to piezoelectric thickness ratio" 21 (21): 733-738, 2015

      7 Sebald, G., "Simulation of a Duffing oscillator for broadband piezoelectric energy harvesting" 20 (20): 075022-, 2011

      8 Daqaq, M. F., "Response of uni-modal duffing-type harvesters to random forced excitations" 329 (329): 3621-3631, 2010

      9 Karami, M. A., "Powering pacemakers from heartbeat vibrations using linear and nonlinear energy harvesters" 100 : 042901-, 2012

      10 Muthalif, A. G. A., "Optimal piezoelectric beam shape for single and broadband vibration energy harvesting : Modeling, simulation and experimental results" 54 : 417-426, 2015

      11 Daqaq, M. F., "On intentional introduction of stiffness nonlinearities for energy harvesting under white Gaussian excitations" 69 (69): 1063-1079, 2012

      12 Ren, Y. S., "Nonlinear deformation, thermal buckling and vibration of shape memory alloy fiber composite beams" 01 : 99-110, 2019

      13 Tabatabaei, S. M. K., "Multi-objective shape design optimization of piezoelectric energy harvester using artificial immune system" 22 (22): 2435-2446, 2016

      14 Hosseini, R., "Improvements in energy harvesting capabilities by using different shapes of piezoelectric bimorphs" 25 (25): 125008-, 2015

      15 Tiwari, R., "Energy balance for peak detection method in piezoelectric energy harvester" 25 : 1024-1035, 2014

      16 Chandrasekharan, N., "Effects of geometric and material properties on electrical power harvested from a bimorph piezoelectric cantilever beam" 9 (9): 391-409, 2013

      17 Shafer, M. W., "Designing maximum power output into piezoelectric energy harvesters" 21 (21): 085008-, 2012

      18 Lian-min Cao, "Design and Test of the MEMS Coupled Piezoelectric- Electromagnetic Energy Harvester" 한국정밀공학회 20 (20): 673-686, 2019

      19 Goldschmidtboeing, F., "Characterization of different beam shapes for piezoelectric energy harvesting" 18 (18): 104013-, 2008

      20 Marin, A., "Broadband electromagnetic vibration energy harvesting system for powering wireless sensor nodes" 22 : 075008-, 2013

      21 Dietl, J. M., "Beam shape optimization for power harvesting" 21 (21): 633-646, 2010

      22 Nicholas, R., "A structured approach to optimization of energy harvesting wireless sensor networks" 420-425, 2013

      23 Yang, X., "A new hybrid piezoelectric-electromagnetic vibration-powered generator and its model and experiment research applied superconductivity" 24 : 1-4, 2014

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-06-23 학회명변경 영문명 : Korean Society Of Precision Engineering -> Korean Society for Precision Engineering KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      2005-05-30 학술지명변경 한글명 : 한국정밀공학회 영문논문집 -> International Journal of the Korean of Precision Engineering KCI등재후보
      2005-05-30 학술지명변경 한글명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing
      외국어명 : International Journal of the Korean of Precision Engineering -> International Journal of Precision Engineering and Manufacturing      		 KCI등재후보
      2005-01-01 평가 등재후보 1차 PASS (등재후보1차) KCI등재후보
      2003-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.38 0.71 1.08
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.92 0.85 0.583 0.11
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