Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae

40 páginas

Autores:: Garzón Castro, Claudia Lorena

Tipo de recurso:

Fecha de publicación:: 2017

Institución:: Universidad de la Sabana

Repositorio:: Repositorio Universidad de la Sabana

Idioma:: eng

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dc.title.en.fl_str_mv	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
title	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
spellingShingle	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae Control de rechazo activo de perturbaciones Control libre de modelo Sistema no lineal Optimización Cultivo de microalgas Producción de biomasa
title_short	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
title_full	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
title_fullStr	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
title_full_unstemmed	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
title_sort	Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae
dc.creator.fl_str_mv	Garzón Castro, Claudia Lorena
dc.contributor.advisor.none.fl_str_mv	Cortés Romero, John Alexander Tello Camacho, Edisson
dc.contributor.author.none.fl_str_mv	Garzón Castro, Claudia Lorena
dc.subject.es_CO.fl_str_mv	Control de rechazo activo de perturbaciones Control libre de modelo Sistema no lineal Optimización Cultivo de microalgas Producción de biomasa
topic	Control de rechazo activo de perturbaciones Control libre de modelo Sistema no lineal Optimización Cultivo de microalgas Producción de biomasa
description	40 páginas
publishDate	2017
dc.date.issued.none.fl_str_mv	2017
dc.date.accessioned.none.fl_str_mv	6/27/2018 8:55
dc.date.available.none.fl_str_mv	6/27/2018 8:55
dc.type.es_CO.fl_str_mv	doctoralThesis
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dc.type.local.none.fl_str_mv	Tesis de doctorado
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dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10818/33267
dc.identifier.local.none.fl_str_mv	268780 TE09667
url	http://hdl.handle.net/10818/33267
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dc.language.iso.es_CO.fl_str_mv	eng
language	eng
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spelling	Cortés Romero, John AlexanderTello Camacho, EdissonGarzón Castro, Claudia Lorena6/27/2018 8:556/27/2018 8:552017http://hdl.handle.net/10818/33267268780TE0966740 páginasEn esta investigación se diseñaron estrategias de control avanzado bajo el enfoque del rechazo activo de perturbaciones (ADRC, Active Disturbance Rejection Control) para incrementar la producción de biomasa en cultivos de microalgas. Para lo anterior, desde el punto de vista del control, esta investigación se planeó en dos etapas: control y optimización. La primera etapa resultó en tres diseños diferentes de controladores: dos estrategias ADRC asistida por observador y un control libre de modelo (MFC, Model-Free Control). En cada caso, el objetivo fue garantizar el seguimiento de la señal de referencia. En la segunda etapa, se realizaron dos diseños de estrategias de optimización con el fin de incrementar la producción de biomasa, una fuera de línea y una en línea. Al comparar, a nivel de simulación, estas estrategias con otras propuestas ya existentes, se encontró que: 1) las estrategias ADRC asistidas por observador tienen poca dependencia del modelo, permitiendo trabajar con un modelo aproximado que solo requiere conocer el orden del sistema y la ganancia de entrada; 2) la optimización fuera de línea aunque logra maximizar la producción de biomasa requiere conocer el modelo y 3) la propuesta que combina MFC con la optimización en línea, puede actuar sobre cualquier cultivo de microalgas ya que no necesita de un modelo. Todas las propuestas son robustas frente a perturbaciones permitiendo incrementar la producción de biomasa cuando se hace uso de una estrategia de optimización.application/pdfengUniversidad de La SabanaAttribution-NonCommercial-NoDerivatives 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-nd/4.0/http://purl.org/coar/access_right/c_abf2instname:Universidad de La Sabanareponame:Intellectum Repositorio Universidad de La SabanaControl de rechazo activo de perturbacionesControl libre de modeloSistema no linealOptimizaciónCultivo de microalgasProducción de biomasaApplication of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgaedoctoralThesisTesis de doctoradopublishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85http://purl.org/coar/resource_type/c_db06Abdollahi, J., & Dubljevic, S. (2012). Lipid production optimization and optimal control of heterotrophic microalgae fed-batch bioreactor. Chemical Engineering Science, 84, 619– 627. https://doi.org/10.1016/j.ces.2012.09.005Ben-Amotz, A. (2008). Bio-fuel production by marine microalgae conversion of electric power plant wastes to bio-diesel and bio-ethanol. Journal of Biotechnology, 136S, S523. https://doi.org/10.1016/j.jbiotec.2008.07.1228Bernard, O. (2011). Hurdles and challenges for modelling and control of microalgae for CO 2 mitigation and biofuel production. Journal of Process Control, 21(10), 1378–1389. https://doi.org/10.1016/j.jprocont.2011.07.012Boubakir, A., Labiod, S., Boudjema, F., & Plestan, F. (2014). Model-free controller with an observer applied in real-time to a 3-DOF helicopter. Turkish Journal of Electrical Engineering & Computer Sciences, 22, 1564–1581. https://doi.org/10.3906/elk-1204- 54Formentin, S., De Filippi, P., Tanelli, M., & Savaresi, S. M. (2010). Model-free control for active braking systems in sport motorcycles. In IFAC (Ed.), 8th IFAC Proceedings Volumes (IFAC-PapersOnline) (pp. 873–878). Italy: IFAC. https://doi.org/10.3182/20100901-3-IT-2016.00094Fliess, M., & Join, C. (2013). Model-free control. International Journal of Control, 86(12), 2228–2252. https://doi.org/10.1080/00207179.2013.810345Gao, Z. (2006). Active disturbance rejection control: A paradigm shift in feedback control system design. In Proceedings of the 2006 American Control Conference (pp. 2399– 2404). Minneapolis, Minnesota, USA: IEEEGoodwin, G. C., Graebe, S. F., & Salgado, M. E. (2000). The excitement of control engineering. In Control system design (pp. 5–20). Valparaíso (Chile): Pearson Education.Mandonski, R.; Zhiqiang, Gao; Lakomy, K. (2015). Towards a turnkey solution of industrial control under the active disturbance rejection paradigm. In 54th Annual Conference of the Society of Instrument and Control Engineers of Japan (SICE) (pp. 616–621). Hangzhou: IEEE. https://doi.org/10.1109/SICE.2015.7285478MohammadRidha, T., & Moog, C. H. (2015). Model Free Control for Type-1 Diabetes: A Fasting-Phase Study. IFAC-PapersOnLine, 48(20), 76–81. https://doi.org/10.1016/j.ifacol.2015.10.118Vonshak, A., & Torzillo, G. (2004). Environmental stress physiology. In Amos Richmond (Ed.), Handbook of microalgal culture: Biotechnology and Applied Phycology (pp. 57– 82). United Kingdom: Blackwell. https://doi.org/10.1002/978047099528Garzón C. L., Cortés J. A., Tello E. (2017). Active Disturbance Rejection Control for growth of microalgae in a batch culture. IEEE Latin America Transactions, 15 (4), 588-594. https://doi.org/10.1109/TLA.2017.7896342Garzón-Castro C. L., Delgado-Aguilera E., Cortés-Romero J. A., Tello E. & Mazzanti G. Performance of an Active Disturbance Rejection Control on a simulated continuous microalgae photobioreactor.Garzón-Castro C. L., Cortés-Romero J. A., Arcos-Legarda J, Tello E. (2017). Optimal decision curve of light intensity to maximize the biomass concentration in a batch culture. Biochemical Engineering Journal, 123, 57-65. https://doi.org/10.1016/j.bej.2017.04.001Garzón-Castro C. L., Cortés-Romero J. A., Tello E. Performance of Model Free Control and heuristic optimization for growth of microalgae in a batch culture.Hurtado-Varela X., Garzón-Castro C. L., Cortés J. A., Tello E. A comparison of lipid extraction methods for the microalgae Acutodesmus obliquusHurtado-Varela X., Garzón-Castro C. L., Cortés J. A., Tello E. Use the combined strategy of wavelengths and light intensities in a batch culture of Acutodesmus obliquusGarzón C. L., Cortés J. A., Tello E. (2017). Active Disturbance Rejection Control for growth of microalgae in a batch culture. IEEE Latin America Transactions, 15 (4), 588-594. https://doi.org/10.1109/TLA.2017.78 96342Garzón-Castro C. L., DelgadoAguilera E., Cortés-Romero J. A., Tello E. & Mazzanti G. Performance of an Active Disturbance Rejection Control on a simulated continuous microalgae photobioreactor.Garzón-Castro C. L., Cortés-Romero J. A., Arcos-Legarda J, Tello E. (2017). Optimal decision curve of light intensity to maximize the biomass concentration in a batch culture. Biochemical Engineering Journal, 123, 57-65. https://doi.org/10.1016/j.bej.2017.04 .001Garzón-Castro C. L., Cortés-Romero J. A., Tello E. Performance of Model Free Control and heuristic optimization for growth of microalgae in a batch culture.Hurtado-Varela X., Garzón-Castro C. L., Cortés J. A., Tello E. A comparison of lipid extraction methods for the microalgae Acutodesmus obliquus.Hurtado-Varela X., Garzón-Castro C. L., Cortés J. A., Tello E. Use the combined strategy of wavelengths and light intensities in a batch culture of Acutodesmus obliquusFacultad de IngenieríaUniversidad de La SabanaDoctorado en BiocienciasDoctor en BiocienciasORIGINALTesis_CLGC_biblioteca.pdfTesis_CLGC_biblioteca.pdfVer documento en PDF application/pdf1852715https://intellectum.unisabana.edu.co/bitstream/10818/33267/5/Tesis_CLGC_biblioteca.pdf53e7d24c6ade6b712ef449826bf426bcMD55CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-81223https://intellectum.unisabana.edu.co/bitstream/10818/33267/2/license_rdf7c9ab7f006165862d8ce9ac5eac01552MD52LICENSElicense.txtlicense.txttext/plain; charset=utf-8498https://intellectum.unisabana.edu.co/bitstream/10818/33267/3/license.txtf52a2cfd4df262e08e9b300d62c85cabMD53Carta - Claudia Garzón.pdfCarta - Claudia Garzón.pdfapplication/pdf188652https://intellectum.unisabana.edu.co/bitstream/10818/33267/4/Carta%20-%20Claudia%20Garz%c3%b3n.pdfa6bc99ab20561b011fd1936bce53e8bfMD54TEXTTesis_CLGC_biblioteca.pdf.txtTesis_CLGC_biblioteca.pdf.txtExtracted Texttext/plain88089https://intellectum.unisabana.edu.co/bitstream/10818/33267/6/Tesis_CLGC_biblioteca.pdf.txt03ba082341099321dacfb6b44693aa07MD5610818/33267oai:intellectum.unisabana.edu.co:10818/332672022-02-18 12:08:51.671Intellectum Universidad de la Sabanacontactointellectum@unisabana.edu.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

Application of strategies of advanced control under the active disturbance rejection control, to produce lipids from microalgae

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