Gaia

XSLaren edukia

Perturbazioak eta babes sistemak Smargrids-etan

Gaiari buruzko datu orokorrak

Modalitatea
Ikasgelakoa
Hizkuntza
Ingelesa

Irakasgaiaren azalpena eta testuingurua

The main objective of this course is to provide the student with the theoretical and practical knowledge about the protection of power systems and its application to the protection of smartgrids. Thus, the course introduces the basic principles of power system protection, the components of a protection system and its principles of operation and the basic protection functions performed by a protection system. Next, the main characteristics of distribution networks with distributed generation are analyzed, the current protection practice for these networks is also reviewed and the impacts that distributed generators cause on the protection of distribution networks is discussed using practical examples. The results of the previous analysis will lead us to raise the need for new concepts and strategies for protection of smartgrids. Finally, the state of the art of the research areas and new technologies for the protection of smartgrids will be reviewed, based on the integration of the protection system with the communication systems 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
EGUIA LOPEZ, PABLOEuskal Herriko UnibertsitateaIrakaslego AgregatuaDoktoreaElebakarraIngeniaritza Elektrikoapablo.eguia@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 kontzeptuak eta zehaztapenak ezagutu eta aplikatzea, baita haien tipologiak, osatzen dituzten osagaiak eta oinarrizko dimentsionatzea ere. 25.0 %
Smartgrid-en osagai ezberdinen eredu dinamikoak ezartzea, batez ere, Sorkuntza Banatuko unitateak. 20.0 %
Smartgrid-en osagai ezberdinen eredu eta kontrolatzaileak ebaluatzea eta balidatzea, simulazio eta saiakuntza esperimentalen bidez. Horretarako, tresna informatiko eta prototipo ezberdinak erabiliko dira. 15.0 %
Tresna informatikoak eta telekomunikazio tresnak aplikatzea Smartgrid eta Sorkuntza Banatua kontrolatzeko. 10.0 %
Unibertsiate, teknologia zentro eta Smartgrid eta Sorkuntza Banaturaren alorreko enpresen I+G+b proiektuak aztertzea. 10.0 %
Smartgrid-en alorrean lan egiten duten profesionalez eta aztertzaileez osatutako diziplina anitzeko talde eleanitzek, nazionalek zein nazioartekoek, egindako lanen gainean ikasleek komunikatzeko gaitasuna izatea. 5.0 %
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. 5.0 %

Irakaskuntza motak

MotaIkasgelako orduakIkasgelaz kanpoko orduakOrduak guztira
Magistrala162541
Gelako p.61218
Ordenagailuko p.8816

Irakaskuntza motak

IzenaOrduakIkasgelako orduen ehunekoa
Ariketak15.025 %
Azalpenezko eskolak15.0100 %
Ikasketa sistematizatua23.00 %
Kasu praktikoen ebazpena15.050 %
Proiektuen azalpena1.0100 %
Txostenak eta azalpenak lantzea6.00 %

Ebaluazio-sistemak

IzenaGutxieneko ponderazioaGehieneko ponderazioa
Azalpenak10.0 % 30.0 %
Idatzizko azterketa30.0 % 50.0 %
Lan praktikoak30.0 % 40.0 %

Ohiko deialdia: orientazioak eta uko egitea

CONTINUOUS EVALUATION: The final grade in the case of the continuous assessment system will be composed of: - Written examination: 40% - Group work: 30% - Computer lab: 30% To pass the subject it will be necessary to obtain 5 points out of 10 in the final exam. If this requirement is not met, the final grade will be the weighted average of each part, unless it exceeds 5, in which case the final grade will be 4.5. To renounce to the continuous evaluation, students must request it in writing to the subject's teaching staff, before week 10 after the beginning of the teaching of said subject. The rejection of the continuous evaluation implies the application of the final evaluation system.

Ezohiko deialdia: orientazioak eta uko egitea

In the final evaluation system, the final grade will be composed of: - Individual work: 35% - Final exam: 65% To pass the subject it will be necessary to obtain 4 points out of 10 in the final exam. If this requirement is not met, the final grade will be the weighted average of each part, unless it exceeds 5, in which case the final grade will be 4.5. To renounce the call, students must request in writing to the academic committee of the master, at least one week before the official date of the final exam established for the call.

Irakasgai-zerrenda

Power system protection. Basic concepts Protection systems. Equipment and technologies adapted to Smartgrids Protection functions Characteristics od distribution networks with distributed generation Distributed generation impact on the protection of distribution systemsProtections for Smartgrids. New concepts and intelligent protection strategies

Bibliografia

Nahitaez erabili beharreko materiala

Documentation for the course in eGela platform: http://egela.ehu.eus

Oinarrizko bibliografia

P.M. Anderson. Power system protection. Ed. McGraw Hill IEEE Press, Piscataway, New Jersey: 1999. Alstom, Network protection and automation guide. Ed. Alstom Grid, Paris: 2011. H.J. Altuve, E.O. Schweitzer, Modern solutions for protection, control and monitoring of electric power systems. Ed. Schweitzed Engineering Laboratories, Pullman, Washington: 2010. M.H.J. Bollen, F. Hassan, Integration of distributed generation in the power system. Ed. IEEE Press Series on Power Engineering. Wiley. Hoboken: 2011.

Gehiago sakontzeko bibliografia

A.T. Johns & S. K. Salman, Digital protection for power systems, Ed. IEE Power Series 15, London 1995

G. Ziegler, Numerical distance protection, Ed. Siemens, Berlin: 1999

A.G. Phadke, J.S. Thorp, Synchronized phasor measurements and their applications. Ed. Springer, New York: 2008

CIGRE WG B5.34, Brochure 421: The impact of renewable energy sources and distributed generation on substation protection and automation. August 2010.

IEEE Power System Relay Comittee WG D3, Impact of distributed resources on distribution relay protection. August 2004. http://ieeexplore.ieee.org R. Uluski, Creating Smart DISTRIBUTION through AUTOMATION, PAC World Magazine, March 2012. CIGRE WG C6.11, Brochure 457: Development and operation of active distribution networks. April 2011.

Aldizkariak

PAC World Magazine IEEE Power & Energy Magazine IEEE Transactions on Smart Grid IEEE Transactions on Power Delivery Electric Power Systems ResearchInternational Journal of Electrical Power & Energy Systems

Estekak

http://smartgrid.ieee.org/ http://sites.ieee.org/igcc/ http://www.nist.gov/smartgrid/ http://www.sgiclearinghouse.org/ http://www.abb.com/smartgrids

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