Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator
The numerical modeling results of the full-scale experiment with low-frequency pulse excitation of the stack-type piezoelectric generator (PEG) for the energy storage device are described. PEG is a multilayer axisymmetric piezoceramic package. The dependence of the output voltage on the active load...
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| Format: | Article |
| Language: | Russian |
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Don State Technical University
2016-03-01
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| Series: | Advanced Engineering Research |
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| Online Access: | https://www.vestnik-donstu.ru/jour/article/view/54 |
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| author | Arkady N. Solovyev Van Duong Le Vladimir A. Akopyan Evgeny V. Rozhkov Valery A. Chebanenko |
| author_facet | Arkady N. Solovyev Van Duong Le Vladimir A. Akopyan Evgeny V. Rozhkov Valery A. Chebanenko |
| author_sort | Arkady N. Solovyev |
| collection | DOAJ |
| description | The numerical modeling results of the full-scale experiment with low-frequency pulse excitation of the stack-type piezoelectric generator (PEG) for the energy storage device are described. PEG is a multilayer axisymmetric piezoceramic package. The dependence of the output voltage on the active load rate under the harmonic and non-stationary mechanical action of the PEG is studied. A finite element device model is developed in ANSYS , and a simplified one-dimensional analytical model is analyzed. The experimental results-to-numerical calculation correlation has shown their good convergence which allows using the analyzed numerical models to optimize the PEG design at the given external action frequency and active resistance value of the external electric circuit. In addition, it is found that the frequency dependence of the output voltage of the axial-type PEG is of a complex nature depending both on the compressive pulse loading level and the piezoelectric modulus value of the PEG sensitive element, and on the electrical load resistance. |
| format | Article |
| id | doaj-art-727989f87f5e4e6b8ca3d701f964ae3a |
| institution | DOAJ |
| issn | 2687-1653 |
| language | Russian |
| publishDate | 2016-03-01 |
| publisher | Don State Technical University |
| record_format | Article |
| series | Advanced Engineering Research |
| spelling | doaj-art-727989f87f5e4e6b8ca3d701f964ae3a2025-08-20T03:21:18ZrusDon State Technical UniversityAdvanced Engineering Research2687-16532016-03-01161192610.12737/1813254Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generatorArkady N. Solovyev0Van Duong Le1Vladimir A. Akopyan2Evgeny V. Rozhkov3Valery A. Chebanenko4Don State Technical University; Southern Federal University, Research Institute for Mechanics and Applied Mathematics after I.I. Vorovich; Southern Scientific Center of RASDon State Technical UniversitySouthern Federal University, Research Institute for Mechanics and Applied Mathematics after I.I. VorovichSouthern Federal University, Research Institute for Mechanics and Applied Mathematics after I.I. VorovichSouthern Federal University, Research Institute for Mechanics and Applied Mathematics after I.I. VorovichThe numerical modeling results of the full-scale experiment with low-frequency pulse excitation of the stack-type piezoelectric generator (PEG) for the energy storage device are described. PEG is a multilayer axisymmetric piezoceramic package. The dependence of the output voltage on the active load rate under the harmonic and non-stationary mechanical action of the PEG is studied. A finite element device model is developed in ANSYS , and a simplified one-dimensional analytical model is analyzed. The experimental results-to-numerical calculation correlation has shown their good convergence which allows using the analyzed numerical models to optimize the PEG design at the given external action frequency and active resistance value of the external electric circuit. In addition, it is found that the frequency dependence of the output voltage of the axial-type PEG is of a complex nature depending both on the compressive pulse loading level and the piezoelectric modulus value of the PEG sensitive element, and on the electrical load resistance.https://www.vestnik-donstu.ru/jour/article/view/54многослойный пьезоэлектрический генераторвыходные характеристикифизический экспериментконечно-элементный расчетупрощенная модельmultilayered piezoelectric generatoroutput characteristicsphysical experimentfinite element calculationsimplified model |
| spellingShingle | Arkady N. Solovyev Van Duong Le Vladimir A. Akopyan Evgeny V. Rozhkov Valery A. Chebanenko Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator Advanced Engineering Research многослойный пьезоэлектрический генератор выходные характеристики физический эксперимент конечно-элементный расчет упрощенная модель multilayered piezoelectric generator output characteristics physical experiment finite element calculation simplified model |
| title | Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| title_full | Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| title_fullStr | Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| title_full_unstemmed | Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| title_short | Numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| title_sort | numerical simulation of the experiment on pulsed excitation of stack type piezoelectric generator |
| topic | многослойный пьезоэлектрический генератор выходные характеристики физический эксперимент конечно-элементный расчет упрощенная модель multilayered piezoelectric generator output characteristics physical experiment finite element calculation simplified model |
| url | https://www.vestnik-donstu.ru/jour/article/view/54 |
| work_keys_str_mv | AT arkadynsolovyev numericalsimulationoftheexperimentonpulsedexcitationofstacktypepiezoelectricgenerator AT vanduongle numericalsimulationoftheexperimentonpulsedexcitationofstacktypepiezoelectricgenerator AT vladimiraakopyan numericalsimulationoftheexperimentonpulsedexcitationofstacktypepiezoelectricgenerator AT evgenyvrozhkov numericalsimulationoftheexperimentonpulsedexcitationofstacktypepiezoelectricgenerator AT valeryachebanenko numericalsimulationoftheexperimentonpulsedexcitationofstacktypepiezoelectricgenerator |