Gaia

XSLaren edukia

Sare elektrikoen operazio eta kontrola

Gaiari buruzko datu orokorrak

Modalitatea
Ikasgelakoa
Hizkuntza
Ingelesa

Irakasgaiaren azalpena eta testuingurua

Power systems are large and complex electrical networks. In any power system, generations are located at few selected points and loads are distributed throughout the network. In between generations and loads, there exist transmission and distribution systems. In the power system, the system load keeps changing from time to time as shown by the daily demand curve. Properly designed power system should have the following characteristics: It must supply power, practically everywhere the customer demands. It must supply power to the customers at all times. It must be able to supply the ever changing load demand at all time. The power supplied should be of good quality. The power supplied should be economical. It must satisfy necessary safety requirements. It must cause minimum environmental impact. To meet these characteristics, the electrical system must be adequately operated and controlled. So, the main goal of the system operator is to maintain the system in a normal secure state as the operating conditions vary during the daily operation. Además, a power system control is required to maintain a continuous balance between power generation and load demand. Load Frequency Controller and Automatic Voltage Regulator play an important role in maintaining constant frequency and voltage in order to ensure the reliability of electric power. With the implementation of new technologies and the installation of distributed generation, electrical systems are evolving to SmartGrids. But this evolution must be done while the network continues to function and meets with all the characteristics. This course establishes the foundations for the operation and control of the conventional electrical system, its most important concepts and critical factors, to understand how intelligent systems should be operated and GD systems controlled. 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
ZUBIA OLASKOAGA, ITZIAREuskal Herriko UnibertsitateaIrakaslego AgregatuaDoktoreaElebidunaIngeniaritza Elektrikoaitziar.zubia@ehu.eus

Gaitasunak

IzenaPisua
Ikasleek Smartgrid eta Sorkuntza Banaturari sorkuntzari loturiko teknika eta lan metodologien inguruko ezagutza eguneratua edukitzea,batez ere horiek kontrolatzearen ikuspegitik. 20.0 %
Jarduteko eta kudeaketarako estrategiak diseinatzea, Smartgrid sareak erregulatzeko teknika aurreratuak barne. 30.0 %
Smartgrid eta Microsareen jarduna baloratu eta kontrastatzea. Jardun hori simulazioari esker lortuko da, jarduteko eta kudeatzeko estrategia ezberdinen bidez. Lortutako emaitzak justifikatu beharko dira. 20.0 %
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. 5.0 %
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. 10.0 %

Irakaskuntza motak

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

Irakaskuntza motak

IzenaOrduakIkasgelako orduen ehunekoa
Ariketak25.030 %
Azalpenezko eskolak14.0100 %
Ikasketa sistematizatua21.00 %
Kasu praktikoen ebazpena15.050 %

Ebaluazio-sistemak

IzenaGutxieneko ponderazioaGehieneko ponderazioa
Garatu beharreko galderak5.0 % 20.0 %
Idatzizko azterketa30.0 % 70.0 %
Lan praktikoak10.0 % 40.0 %

Ohiko deialdia: orientazioak eta uko egitea

The evaluation modalities that are taken into account of the subject are: - class attendance, - conducting simulation practices in pairs/groups, - writing individual reports - taking a final exam. The percentage value assigned to each evaluation instrument is as follows - Attendance 10% - Laboratory reports 30% - Final Exam 60% (20% Theoretical questions, 40% Problems) To carry out the corresponding weightings of the various evaluable sections it is necessary to obtain a minimum grade of 4/10 in each type of independently evaluated activity: Attendance, Reports, Theory and Exam Problems. To pass the course it is required that the final grade is equal to or greater than 5.

Ezohiko deialdia: orientazioak eta uko egitea

The evaluation modalities that are taken into account of the subject are: - class attendance, - conducting simulation practices in pairs/groups, - writing individual reports - taking a final exam. The percentage value assigned to each evaluation instrument is as follows - Attendance 10% - Laboratory reports 30% - Final Exam 60% (20% Theoretical questions, 40% Problems) To carry out the corresponding weightings of the various evaluable sections it is necessary to obtain a minimum grade of 4/10 in each type of independently evaluated activity: Attendance, Reports, Theory and Exam Problems. The relative weight of each activity will be applied in both the ordinary and the extraordinary examination. The notes of Attendance and Report Writing will be maintained in the the ordinary and the extraordinary examination. The exam notes will be those of each call. To pass the course it is required that the final grade is equal to or greater than 5.

Irakasgai-zerrenda

UNIT 1: Introduction to Grid operation and control UNIT 2: Grid Codes in Grid operation and control UNIT 3: Power Flow Analysis UNIT 4: Power System Control: Voltage Control and Frequency Control UNIT 5: Introduction to Distributed Generation and SmartGrid Operation

Bibliografia

Nahitaez erabili beharreko materiala

Documentation of the subject's web page. Accessible at: https://egela.ehu.eus/

Oinarrizko bibliografia

P. Kundur Power system stability and control, Electric Power Research Institute, 1994.

R. H. Miller and J. H. Malinowski, Power system operation, Mc Graw Hill, 1994.

P. S. R. Murty. Operation and Control in Power Systems, 2nd Ed. CRC Press, 2011.

M.H.J. Bollen, F. Hassan, Integration of distributed generation in the power system. Ed. IEEE Press Series on Power Engineering. Wiley. Hoboken: 2011.

A. J. Wood and B. F. Wollenberg, Power Generation, Operation and Control, John Wiley & Sons, 1996

A. Gomez-Exposito, J. Conejo,C. Canizares Electric Energy Systems: Analysis and Operation, CRC Press, 2009

Procedimientos de operación: Red Eléctrica de España REE, http://www.ree.es/operacion/operacion_sistema.asp Operation handbook, Union for the co-ordination of transmission of electricity
UCTE, disponible en http://www.ucte.org/ohb/cur status.asp

Gehiago sakontzeko bibliografia

S. Sivanagaraju, G. Sreenivasan, Power System Operation and Control, Pearson Education, 2010 S. Vadari, M. Vadari. Electric System Operations: Evolving to the Modern Grid. Artech House, Norwood, 2013 L. Wang, Modeling and Control of Sustainable Power Systems: Towards Smarter and Greener Electric Grids. Springer, 2012 D.M. Tagare. Reactive Power Management. McGraw-Hill Education, 2004 H. Bevrani,T. Hiyama. Intelligent Automatic Generation Control. CRC Press, 2011

Aldizkariak

Energy Conversion and Management Renewable Energy Energy IET Renewable Power Generation IEEE Energy Conversion

Estekak

http://smartgrid.ieee.org/ http://sites.ieee.org/igcc/ http://www.nist.gov/smartgrid/ http://www.sgiclearinghouse.org/ http://www.abb.com/smartgrids http://www.alstom.com/grid/npagrequest/ http://www.gedigitalenergy.com/multilin/notes/artsci/ http://c2.cigre.org/ http://c6.cigre.org/ http://www.pes-psrc.org/

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