Gaia

XSLaren edukia

Makina aldeko bihurgailu-sorgailu multzoaren kontrola

Gaiari buruzko datu orokorrak

Modalitatea
Ikasgelakoa
Hizkuntza
Ingelesa

Irakasgaiaren azalpena eta testuingurua

In this course the concepts of vector control applied to the control of three types of machines applied to wind generators will be shown. Thus, the models of the induction machines (squirrel cage and DFIG) and the synchronous machine will be shown. In addition to the models of the machines, the model of the wind turbine and the mechanical system affecting the control system will be shown. Finally, the control of these machines as wind generators will be carried out starting from the models previously mentioned and adjusting the controllers for a correct operation. The systems will be implemented using Matlab/Simulink. In the event that the sanitary conditions prevent the realization of a teaching activity and / or face-to-face evaluation, a non-face-to-face modality will be activated of which the students will be informed promptly.

Irakasleak

IzenaErakundeaKategoriaDoktoreaIrakaskuntza-profilaArloaHelbide elektronikoa
CORTAJARENA ECHEVERRIA, JOSE ANTONIOEuskal Herriko UnibertsitateaUnibertsitateko Irakaslego TitularraDoktoreaElebakarraTeknologia Elektronikoajosean.cortajarena@ehu.eus

Gaitasunak

IzenaPisua
Ikasleek Smartgrid eta Sorkuntza Banaturari sorkuntzari loturiko teknika eta lan metodologien inguruko ezagutza eguneratua edukitzea,batez ere horiek kontrolatzearen ikuspegitik. 10.0 %
Smartgrid-en osagai ezberdinen eredu dinamikoak ezartzea, batez ere, Sorkuntza Banatuko unitateak. 25.0 %
Smartgrid-en osagai desberdinentzako tokiko kontroleko legeak diseinatzea, batez ere banatutako sorkuntza unitateak. 25.0 %
Smartgrid-en osagai ezberdinen eredu eta kontrolatzaileak ebaluatzea eta balidatzea, simulazio eta saiakuntza esperimentalen bidez. Horretarako, tresna informatiko eta prototipo ezberdinak erabiliko dira. 20.0 %
Smartgrid-en alorrean lan egiten duten profesionalez eta aztertzaileez osatutako diziplina anitzeko talde eleanitzek, nazionalek zein nazioartekoek, egindako lanen gainean ikasleek komunikatzeko gaitasuna izatea. 10.0 %
Ikasleak masterraren gaiari buruzko dokumentu teknikoak, arauak eta artikulu zientifikoak ulertzeko eta aztertzeko gaituta egotea, baita Smartgrid-en alorreko garapen lanetan horiek aplikatzeko gai izatea ere. 10.0 %

Irakaskuntza motak

MotaIkasgelako orduakIkasgelaz kanpoko orduakOrduak guztira
Magistrala223355
Gelako p.57.512.5
Laborategiko p.404
Ordenagailuko p.142741

Irakaskuntza motak

IzenaOrduakIkasgelako orduen ehunekoa
Aplikazio-tailerrak4.0100 %
Ariketak12.540 %
Azalpenezko eskolak22.0100 %
Ikasketa sistematizatua33.00 %
Kasu praktikoen ebazpena41.034 %

Ebaluazio-sistemak

IzenaGutxieneko ponderazioaGehieneko ponderazioa
Ahozko azterketa10.0 % 30.0 %
Idatzizko azterketa40.0 % 60.0 %
Lan praktikoak20.0 % 40.0 %

Ohiko deialdia: orientazioak eta uko egitea

CONTINUOUS EVALUATION SYSTEM The professor will assign a project to the student that will be developed in the laboratory. The elaboration process and the results will be used to evaluate the subject. An exam will be conducted and averaged with the project. It will be mandatory to get a 4 in the exam to make the average. FINAL EVALUATION SYSTEM According to article 8 of the Regulations, regulating the assessment of students in the official degrees, the students shall have the right to be evaluated by means of the FINAL EVALUATION SYSTEM, independently of the fact that has or has not participated in the CONTINUOUS EVALUATION SYSTEM. In order to do so, students must present the following information written to the teacher in charge of the subject the renunciation of the CONTINUOUS EVALUATION within a period of 9 weeks from the beginning of the term. In this case, the student will be assessed with a single final exam, which will include a practical part, which will comprise 100% of the grade. Final grade= 0.85*EX+0.15*PL. In order to pass you must obtain at least 5 points out of 10 in both the written test (EX) and the practical test(PL). RENUNCIATION According to article 12 of the Regulations, regulating the assessment of students in the official degrees, in the case of CONTINUOUS EVALUATION, the student may renounce the call for proposals within a period which, as a minimum, will be up to one month before the end of the teaching period of the corresponding subject. This waiver must be submitted in writing to the teacher responsible for the subject. In the case of FINAL EVALUATION, a no presentation to the official examination will result in the automatic waiver of the corresponding call. Renunciation of the call will result in the qualification of not presented.

Ezohiko deialdia: orientazioak eta uko egitea

The criteria to pass each activity as the weighting of the grade will be the same as in the ordinary call. RENUNCIATION A no presentation to the official examination will result in the automatic waiver of the corresponding call. Renunciation of the call will result in the qualification of not presented.

Irakasgai-zerrenda

COURSE CONTENTS, THEORETICAL & APPLIED Topic 1. Vector transformations Topic 2. Aerodynamic and MPPT model Topic 3. Space vector modulation Topic 4. Wind turbine system configurations Topic 5. Model of the asynchronous machine Topic 6. Permanent magnet synchronous machine Topic 7. Double fed induction generator Topic 8. PID Tuning

Bibliografia

Nahitaez erabili beharreko materiala

Documentación de la página web de la asignatura. Accesible en: http://moodle.ehu.es/moodle

Oinarrizko bibliografia

A. Tapia, G. Tapia, J. X. Ostolaza, and J.R. Sáenz, Modeling and control of a wind turbine driven doubly fed induction generator, IEEE Trans. Energy Convers., vol. 12, no. 2, pp. 194,204, Jun. 2003. P. Vas, Sensorless Vector and Direct Torque Control. New York: Oxford Univ. Press, 1998. G. Tapia, A. Tapia, and J. X. Ostolaza, Two alternative modeling approaches for the evaluation of wind farm active and reactive power performances, IEEE Trans. Energy Convers., vol. 21, no. 4, pp. 909¿920, Dec. 2006. G. Tapia, G. Santamaría, M. Telleria, and A. Susperregui, Methodology for smooth connection of doubly fed induction generators to the grid, IEEE Trans. Energy Convers., vol. 24, no. 4, pp. 959,971, Dec. 2009. S. Li, T. A. Haskew, and L. Xu, Conventional and novel control designs for direct driven PMSG wind turbines, Electric Power Syst. Res., vol. 80, no. 3, pp. 328¿338, Mar. 2010.

Gehiago sakontzeko bibliografia

R. Peña, J. C. Clare, and G. M. Asher, Doubly fed induction generator using back-to-back PWM converters and its application to variable-speed wind-energy generation, IEE Proc.-Electr. Power Appl., vol. 143, no. 3, pp. 231-241, May 1996. G. Abad, J. López, M. A. Rodríguez, L. Marroyo, and G. Iwanski, Doubly Fed Induction Machine: Modeling and Control for Wind Energy Generation. Hoboken, NJ: IEEE Press, 2011. G. Tapia, Parke Eolikoek Sare Elektrikoarekin Trukaturiko Potentzia Erreaktiboaren Optimizaziorako Kontrol Estrategien Diseinu eta Garapena. Bilbo: Euskal Herriko Unibertsitateko Argitalpen Zerbitzua, 2004. M. Chinchilla, S. Arnaltes, and J. Burgos, Control of permanent-magnet generators applied to variable-speed wind-energy systems connected to the grid, IEEE Trans. Energy Convers., vol. 21, no. 1, pp. 130-135, Mar. 2006. H.-W. Kim, S.-S. Kim, and H.-S. Ko, Modeling and control of PMSG-based variable-speed wind turbine, Electr. Power Syst. Res., vol. 80, no. 1, pp. 46-52, Jan. 2010. D. Hansen and G. Michalke, Modelling and control of variable-speed multi-pole permanent magnet synchronous generator wind turbine, Wind Energy, vol. 11, no. 5, pp. 537-554, 2008.

Aldizkariak

IEEE Transactions on Energy Conversion IEEE Transactions on Industrial Electronics IET Renewable Power Generation IET Electric Power Applications IEEE Transactions on Power Electronics IEEE Transactions on Power Systems Electric Power Systems Research Energy Conversion and Management Wind Energy

Estekak

http://en.wikipedia.org/wiki/Doubly_fed_electric_machine http://www.intechopen.com. Publicaciones científica de libre acceso

XSLaren edukia

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