Barbara LAFARGE Enseignant-chercheur
Enseignante-Chercheuse | IM - Ingénierie Mécanique | ROBERVAL - Mécanique, Energie et Electricité
Profile ORCID : https://orcid.org/0000-0002-6006-0430
idHAL : 177633
Linkedin : https://www.linkedin.com/in/barbara-lafarge-788216112/
[1] Rabie Aloui, Barbara Lafarge, Berk Celik, Raoudha Gaha, Hélène Debéda, U-Chan Chung, Catherine Elissalde, and Armaghan Salehian. Life Cycle Assessment of piezoelectric materials used for energy harvesting systems PZT versus KNN. In 8th International conference on Smart Materials and Nanotechnology - SMN 2024, Sharjah, United Arab Emirates, November 2024b. American University of Sharjah.
URL https://hal.science/hal-04891831.
[2] Rabie Aloui, Raoudha Gaha, Barbara Lafarge, Berk Celik, and Caroline Verdari. Life Cycle Assessment of Piezoelectric Devices Implemented in Wind Turbine Condition Monitoring Systems. Energies, 17(16):3928, August 2024a.
doi: 10.3390/en17163928.
URL https://hal.science/hal-04669976.
[3] Rabie Aloui, Barbara Lafarge, Raoudha Gaha, and Berk Celik. Wind turbine components’ life cycle assessment for eco-design purposes: state of the art. In The symposium TS3 ”Technological Systems, Sustainability and Safety”, Paris, France, February 2024c.
URL https://hal.science/hal-04459028.
[4] Anthony Casisa, Barbara Lafarge, Vincent Lanfranchi, Christophe Delebarre, and Sébastien Grondel. Investigations sur la modélisation d’un récupérateur d'empilement piézoélectrique amplifié. In JNRSE 2022, Bordeaux, France, July 2022.
URL https://utc.hal.science/hal-04398279.
[5] Barbara Lafarge, Sébastien Grondel, Christophe Delebarre, Octavian Curea, and Claude Richard. Linear electromagnetic energy harvester system embedded on a vehicle suspension: From modeling to performance analysis. Energy, 225:119991, June 2021.
doi: 10.1016/j.energy.2021.119991.
URL https://hal.science/hal-03169032.
[6] Barbara Lafarge, Sébastien Grondel, and Laurent Cauffriez. Modélisation de systèmes mobiles coopérant communiquant sûrs de fonctionnement. In First Workshop of the joint research lab, SuferLab, Valenciennes, France, January 2019. Université Polytechnique des Hauts-de-France.
URL https://hal.science/hal-02010777.
[7] Barbara Lafarge. Modélisation, simulation et mise en œuvre d’un système de récupération d’énergie. Application à un amortisseur semi-actif autonome. Thèses, Université polytechnique Hauts-de-France, June 2018.
URL https://hal.science/tel-01948363.
[8] Barbara Lafarge, Sébastien Grondel, Christophe Delebarre, and Eric Cattan. A validated simulation of energy harvesting with piezoelectric cantilever beams on a vehicle suspension using Bond Graph approach. Mechatronics, 53:202–214, 2018.
doi: 10.1016/j.mechatronics.2018.06.004.
URL https://hal.science/hal-01948296.
[9] Barbara Lafarge, Christophe Delebarre, Sébastien Grondel, Octavian Curea, and Amélie Hacala-Perret. Analysis and optimization of a piezoelectric harvester on a car damper. Physics Procedia, 70:970–973, September 2015a. International Congress on Ultrasonics, ICU 2015, Metz, France, may 10-14, 2015.
doi: 10.1016/j.phpro.2015.08.202.
URL https://hal.science/hal-01252753.
[10] Barbara Lafarge, Stéphanie Cagin, Octavian Curea, and Am´elie Hacala-Perret. From functional analysis to energy harvesting system design: application to car suspension. International Journal on Interactive Design and Manufacturing, September 2015b. doi: 10.1007/s12008-015-0284-1.
URL https://hal.science/hal-01234032.
[11] Barbara Lafarge, Christophe Delebarre, Sébastien Grondel, Octavian Curea, and Amélie Hacala-Perret. Analysis and Optimization of a Piezoelectric Harvester on a Car Damper. In 2015 International Congress on Ultrasonics, Metz, France, May 2015c.
URL https://hal.science/hal-01153139.
[12] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Haritza Camblong. Analysis, design & simulation of an electromechanical energy harvesting system using a linear movement. In International
Conference on Green Energy, 2014, pages 233 – 239, Sfax, Tunisia, March 2014.
doi:10.1109/ICGE.2014.6835427.
URL https://hal.science/hal-01021635.
ISBN 978-1-4799-3602-1.
[13] Octavian Curea, Amélie Hacala-Perret, Benjamin Talon, and Barbara Lafarge. DISPOSITIF DE SUSPENSION A DISPOSITIF ELECTROMAGNETIQUE INTEGRE DE RECUPERATION D’ENERGIE, March 2014.
URL https://hal.science/hal-01015538.
[14] Benjamin Talon, Barbara Lafarge, Octavian Curea, and Amélie Hacala-Perret. Démonstrateur de ”Quart de véhicule” à l’échelle 1/5. In 4ème Journées Démonstrateurs 2013, page 30, Angers, France, June 2013.
URL https://hal.science/hal-00841605.
[15] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Benjamin Talon. Modeling of an Electromechanical Energy Harvesting System using an Linear Movement. In JNRSE’2013, Toulouse,France, March 2013.
URL https://hal.science/hal-00841619.
[16] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Benjamin Talon. MODELING OF AN ELECTROMECHANICAL ENERGY HARVESTING SYSTEM INTEGRATED IN CAR DAMPERS. In Research and Innovation For Transport Systems of the Future, page 32, Paris, France, November 2012.
URL https://hal.science/hal-00841672.
idHAL : 177633
Linkedin : https://www.linkedin.com/in/barbara-lafarge-788216112/
[1] Rabie Aloui, Barbara Lafarge, Berk Celik, Raoudha Gaha, Hélène Debéda, U-Chan Chung, Catherine Elissalde, and Armaghan Salehian. Life Cycle Assessment of piezoelectric materials used for energy harvesting systems PZT versus KNN. In 8th International conference on Smart Materials and Nanotechnology - SMN 2024, Sharjah, United Arab Emirates, November 2024b. American University of Sharjah.
URL https://hal.science/hal-04891831.
[2] Rabie Aloui, Raoudha Gaha, Barbara Lafarge, Berk Celik, and Caroline Verdari. Life Cycle Assessment of Piezoelectric Devices Implemented in Wind Turbine Condition Monitoring Systems. Energies, 17(16):3928, August 2024a.
doi: 10.3390/en17163928.
URL https://hal.science/hal-04669976.
[3] Rabie Aloui, Barbara Lafarge, Raoudha Gaha, and Berk Celik. Wind turbine components’ life cycle assessment for eco-design purposes: state of the art. In The symposium TS3 ”Technological Systems, Sustainability and Safety”, Paris, France, February 2024c.
URL https://hal.science/hal-04459028.
[4] Anthony Casisa, Barbara Lafarge, Vincent Lanfranchi, Christophe Delebarre, and Sébastien Grondel. Investigations sur la modélisation d’un récupérateur d'empilement piézoélectrique amplifié. In JNRSE 2022, Bordeaux, France, July 2022.
URL https://utc.hal.science/hal-04398279.
[5] Barbara Lafarge, Sébastien Grondel, Christophe Delebarre, Octavian Curea, and Claude Richard. Linear electromagnetic energy harvester system embedded on a vehicle suspension: From modeling to performance analysis. Energy, 225:119991, June 2021.
doi: 10.1016/j.energy.2021.119991.
URL https://hal.science/hal-03169032.
[6] Barbara Lafarge, Sébastien Grondel, and Laurent Cauffriez. Modélisation de systèmes mobiles coopérant communiquant sûrs de fonctionnement. In First Workshop of the joint research lab, SuferLab, Valenciennes, France, January 2019. Université Polytechnique des Hauts-de-France.
URL https://hal.science/hal-02010777.
[7] Barbara Lafarge. Modélisation, simulation et mise en œuvre d’un système de récupération d’énergie. Application à un amortisseur semi-actif autonome. Thèses, Université polytechnique Hauts-de-France, June 2018.
URL https://hal.science/tel-01948363.
[8] Barbara Lafarge, Sébastien Grondel, Christophe Delebarre, and Eric Cattan. A validated simulation of energy harvesting with piezoelectric cantilever beams on a vehicle suspension using Bond Graph approach. Mechatronics, 53:202–214, 2018.
doi: 10.1016/j.mechatronics.2018.06.004.
URL https://hal.science/hal-01948296.
[9] Barbara Lafarge, Christophe Delebarre, Sébastien Grondel, Octavian Curea, and Amélie Hacala-Perret. Analysis and optimization of a piezoelectric harvester on a car damper. Physics Procedia, 70:970–973, September 2015a. International Congress on Ultrasonics, ICU 2015, Metz, France, may 10-14, 2015.
doi: 10.1016/j.phpro.2015.08.202.
URL https://hal.science/hal-01252753.
[10] Barbara Lafarge, Stéphanie Cagin, Octavian Curea, and Am´elie Hacala-Perret. From functional analysis to energy harvesting system design: application to car suspension. International Journal on Interactive Design and Manufacturing, September 2015b. doi: 10.1007/s12008-015-0284-1.
URL https://hal.science/hal-01234032.
[11] Barbara Lafarge, Christophe Delebarre, Sébastien Grondel, Octavian Curea, and Amélie Hacala-Perret. Analysis and Optimization of a Piezoelectric Harvester on a Car Damper. In 2015 International Congress on Ultrasonics, Metz, France, May 2015c.
URL https://hal.science/hal-01153139.
[12] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Haritza Camblong. Analysis, design & simulation of an electromechanical energy harvesting system using a linear movement. In International
Conference on Green Energy, 2014, pages 233 – 239, Sfax, Tunisia, March 2014.
doi:10.1109/ICGE.2014.6835427.
URL https://hal.science/hal-01021635.
ISBN 978-1-4799-3602-1.
[13] Octavian Curea, Amélie Hacala-Perret, Benjamin Talon, and Barbara Lafarge. DISPOSITIF DE SUSPENSION A DISPOSITIF ELECTROMAGNETIQUE INTEGRE DE RECUPERATION D’ENERGIE, March 2014.
URL https://hal.science/hal-01015538.
[14] Benjamin Talon, Barbara Lafarge, Octavian Curea, and Amélie Hacala-Perret. Démonstrateur de ”Quart de véhicule” à l’échelle 1/5. In 4ème Journées Démonstrateurs 2013, page 30, Angers, France, June 2013.
URL https://hal.science/hal-00841605.
[15] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Benjamin Talon. Modeling of an Electromechanical Energy Harvesting System using an Linear Movement. In JNRSE’2013, Toulouse,France, March 2013.
URL https://hal.science/hal-00841619.
[16] Barbara Lafarge, Octavian Curea, Amélie Hacala-Perret, and Benjamin Talon. MODELING OF AN ELECTROMECHANICAL ENERGY HARVESTING SYSTEM INTEGRATED IN CAR DAMPERS. In Research and Innovation For Transport Systems of the Future, page 32, Paris, France, November 2012.
URL https://hal.science/hal-00841672.