Optimal Linear Control to enhance energy harvesting
There are several solutions to enhance energy harvesting efficiency and is highlighted as the most promised state of the art research the active control driven for increase mechanical energy transformation from vibration to electric energy. The control driven uses the impulse to curt circuit the pie...
| Publicado no: | XXII Seminário de Iniciação Científica e Tecnológica da UTFPR |
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| Autor principal: | Maia Neto, Jólio Ribeiro |
| Formato: | Trabalho Apresentado em Evento |
| Idioma: | Português |
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2017
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http://eventos.utfpr.edu.br//sicite/sicite2017/paper/view/1286 |
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oai:ocs.200.19.73.15:paper-12862018-06-07T14:48:08Z sicite-sicite2017 XXII Seminário de Iniciação Científica e Tecnológica da UTFPR 1286 INTERDISCIPLINAR Optimal Linear Control to enhance energy harvesting Maia Neto Jólio Ribeiro Universidade Tecnológica Federal do Paraná, Pato Branco, Paraná, Brasil netomaia17@hotmail.com CORREA DA SILVA RODRIGO Marques Cardoso Prates Katia Valeria Aurelio Toledo da Silva Marco Aurelio Toledo Eno Pottker Walmir Cava Carlos Eduardo LUIS TREVISAN ANDRE Luis MOHEBI ASHTIANI ALIREZA Comitê Gestor do EVIN Comitê Gestor do EVIN Teixeira De Souza Rodolfo DAMIAO SANTIAGO COSMO Finatto Taciane Muylaert Locks Guimaraes Rachel Oliveira Da Silva Rosana Scheufele Fabiano Bisinella CORREA DA SILVA RODRIGO Marques Cardoso Prates Katia Valeria Aurelio Toledo da Silva Marco Aurelio Toledo Eno Pottker Walmir Cava Carlos Eduardo LUIS TREVISAN ANDRE Luis MOHEBI ASHTIANI ALIREZA Teixeira De Souza Rodolfo MICHELE SUZUKI RUBIA MICHELE Machado Baron Alessandra Machado DAMIAO SANTIAGO COSMO EDUARDO BEREZUK MARCIO EDUARDO LARISSA DA SILVA TAIS Tessaro Andre Luiz JOSE ALBA MARCELO José Correia Golias Halison Correia aliano angelo Venter Sandro Aurélio de Souza alher mariana Alher Luiz Bertotti Fabio Luiz Regina Budziak Parabocz Cristiane Finatto Taciane Lemos Gritti Leticia Lemos Missio Regis Luis Donizetti de Lima Jose Brackmann Rodrigo GONCALVES TRENTIN ROBSON Augusto Medeiros Destro Cesar Augusto Medeiros Muylaert Locks Guimaraes Rachel RIZZOTTO ROSSETTO DIEGO Guerino Castoldi Andre Beux Simone Paulo Belancon Marcos Carine Wedig Josiane Canopf Liliane RENE VENTURINI POLA IVES Renê Venturini YOSHIHIRO NAKANO ALBERTO RIZENTAL COUTINHO FABIO BUSSO CLEVERSON SAVARIS GUSTAVO Ricardo Da Rocha Campos Jose Da Rocha Alexandre Spanhol Fabio Alexandre Vaz de Arruda Priscila Bombacini Marcos Roberto Vinicius de Oliveira Alberto TORTOLA EMERSON HENRIQUE PAETZOLD GUSTAVO FELIPE MINOZZO FIGUEIREDO LUIS LUIS ACORSI RENAM Luis JOSE DANTAS NOVAES PAULO José Dantas SILVA DE AMORIM MAGALI SILVA DE Antonio Brum Junior Sergio Ines Christ Milani Dione 06 10 2017 Autores que submetem a esta conferência concordam com os seguintes termos:<br /> <strong>a)</strong> Autores mantém os direitos autorais sobre o trabalho, permitindo à conferência colocá-lo sob uma licença <a href="https://creativecommons.org/licenses/by/4.0/">Licença Creative Commons-Attribution</a>, que permite livremente a outros acessar, usar e compartilhar o trabalho com o crédito de autoria e apresentação inicial nesta conferência.<br /> <strong>b)</strong> Autores podem abrir mão dos termos da licença CC e definir contratos adicionais para a distribuição não-exclusiva e subsequente publicação deste trabalho (ex.: publicar uma versão atualizada em um periódico, disponibilizar em repositório institucional, ou publicá-lo em livro), com o crédito de autoria e apresentação inicial nesta conferência.<br /> <strong>c)</strong> Além disso, autores são incentivados a publicar e compartilhar seus trabalhos online (ex.: em repositório institucional ou em sua página pessoal) a qualquer momento antes e depois da conferência. 2017 There are several solutions to enhance energy harvesting efficiency and is highlighted as the most promised state of the art research the active control driven for increase mechanical energy transformation from vibration to electric energy. The control driven uses the impulse to curt circuit the piezoelectric film and takes advantage of piezoelectric indirect effect. The controller changes the relative stiffness, damping and mass of the studied system and consequently changes the system natural frequency. It is imposed velocity and acceleration to the system to combine the exogenous excitation to system parameters and resulting in maximum mechanical energy transfer. To increase even more energy conversion it was project an Optimal Linear Control to drive the system to a optimize interaction from vibration source to structural system. A piezoelectric film is attached to a cantilever beam and an electric output load is assembled to extract electric energy from vibration sourced. This work presents a initial results of a numeric study from energy harvesting coupled to a optimal linear control project to enhance energy harvesting system efficiency. Energy harvesting. piezoelectric. Linear control. 2017-10-18 XXII Seminário de Iniciação Científica e Tecnológica da UTFPR SICITE2017 |
| institution |
Universidade Tecnológica Federal do Paraná |
| collection |
EVIN |
| container_title |
XXII Seminário de Iniciação Científica e Tecnológica da UTFPR |
| language |
Português |
| format |
Trabalho Apresentado em Evento |
| topic |
Energy harvesting. piezoelectric. Linear control. INTERDISCIPLINAR |
| spellingShingle |
Energy harvesting. piezoelectric. Linear control. INTERDISCIPLINAR Maia Neto, Jólio Ribeiro Optimal Linear Control to enhance energy harvesting |
| topic_facet |
Energy harvesting. piezoelectric. Linear control. INTERDISCIPLINAR |
| description |
There are several solutions to enhance energy harvesting efficiency and is highlighted as the most promised state of the art research the active control driven for increase mechanical energy transformation from vibration to electric energy. The control driven uses the impulse to curt circuit the piezoelectric film and takes advantage of piezoelectric indirect effect. The controller changes the relative stiffness, damping and mass of the studied system and consequently changes the system natural frequency. It is imposed velocity and acceleration to the system to combine the exogenous excitation to system parameters and resulting in maximum mechanical energy transfer. To increase even more energy conversion it was project an Optimal Linear Control to drive the system to a optimize interaction from vibration source to structural system. A piezoelectric film is attached to a cantilever beam and an electric output load is assembled to extract electric energy from vibration sourced. This work presents a initial results of a numeric study from energy harvesting coupled to a optimal linear control project to enhance energy harvesting system efficiency. |
| author |
Maia Neto, Jólio Ribeiro |
| author_sort |
Maia Neto Jólio Ribeiro |
| title |
Optimal Linear Control to enhance energy harvesting |
| title_short |
Optimal Linear Control to enhance energy harvesting |
| title_full |
Optimal Linear Control to enhance energy harvesting |
| title_fullStr |
Optimal Linear Control to enhance energy harvesting |
| title_full_unstemmed |
Optimal Linear Control to enhance energy harvesting |
| title_sort |
optimal linear control to enhance energy harvesting |
| title_alt |
|
| publishDate |
2017 |
| url |
http://eventos.utfpr.edu.br//sicite/sicite2017/paper/view/1286 |
| _version_ |
1703208536569282560 |
| score |
10,966579 |