Budapest University of Technology and Economics, Faculty of Electrical Engineering and Informatics

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    Power Systems Laboratory 2

    A tantárgy neve magyarul / Name of the subject in Hungarian: Villamosenergia-rendszerek laboratórium 2

    Last updated: 2023. szeptember 7.

    Budapest University of Technology and Economics
    Faculty of Electrical Engineering and Informatics
    Electrical Engineering program
    MSc course
    Electric Power Systems main specialisation
    A2 laboratory subject

    Course ID Semester Assessment Credit Tantárgyfélév
    VIVEMB03   0/0/3/f 5  
    3. Course coordinator and department Dr. Kiss Péter,
    4. Instructors Dr Péter Kiss, associate professor, BME-VIK Department of Electric Power Engineering
    instructors for the different measurements
    6. Pre-requisites
    Kötelező:
    (NEM
    (TárgyEredmény( "BMEVIVEMB00", "jegy" , _ ) >= 2
    VAGY
    TárgyEredmény("BMEVIVEMB00", "FELVETEL", AktualisFelev()) > 0))

    ÉS

    TárgyTeljesítve("BMEVIVEMA17")

    A fenti forma a Neptun sajátja, ezen technikai okokból nem változtattunk.

    A kötelező előtanulmányi rend az adott szak honlapján és képzési programjában található.

    Ajánlott:
    Compulsory:

    Getting the credits of Protection Systems and Measurement Technology (BMEVIVEMA17)

    7. Objectives, learning outcomes and obtained knowledge The goal of the laboratory is providing additional practical laboratory measurements and simulations to the subjects of the specialisation.
    8. Synopsis
    1. Overcurrent Protection - Setting of ETIVA and DTIVA Protection Relays, Short Circuit Composition on a Physical Model, Operation by Different Conditions
    2. Distance Protection - Setting of ETV and DTVA Protection Relays, Short Circuit Composition on a Physical Model, Operation by Different Conditions.
    3. Digital Overcurrent Protection, Digital Distance Protection - Setting of Protection Relays, Testing with Generator, Characteristic Check-up.
    4. Analysing of Differential Relays of Transformers - Short Circuit Composition on a Physical Model, Operation by Different Conditions
    5. Digital Motor Protection - Setting of Protection Relay, Testing with Generator, Check-up.
    6. Switchboard Centre's Training Simulator - The Simulation of the Operation of Different Protection Relays, Results and Conclusions on a Training Simulator Software.
    7. Simulation of Electric Energy Market: Defining of Trade Exchanges, Submission, Clearing, Pricing, Offering.
    8. Analysing of Secondary Current and Voltage Transformers - The Errors of a ETV 5A Current Transformer in Function of the Applied Burden at Nominal and Ten Times Higher Current; Measuring the Change of the Excitation Impedance in Function of the Voltage and Frequency on an ETV 100 V Voltage Transformer; Defining the Usability of the Measured Instrument Transformers.
    9. Live Line Maintenance.
    10. Wind Turbine Generators and its Regulation
    9. Method of instruction Laboratory measurements, Computer simulation tutorials in computer laboratory.
    10. Assessment

    During study period:

    All measurements are compulsory for all students according to the provided schedule. Only those can attend who passes the entry test which is a written quiz.

    Students must submit a measurement report taken at each independent workstation or workbench to be evaluated by the instructor. The deadline for the submission is seven calendar days post measurement.

    The students get a mark after each measurements (representing the preliminary preparation the activity during the measurement and the measurement record). At the end of the semester, signatures can be given only if all measurement records are acceptable by the laboratory instructors

    The students are taking part an exam measurement, which is organised on week 14 of the semester. Every student must repeat one part of a specific measurement from the semester and prepare a draft measurement record. without any external help. The exam measurement would take 60 minutes in time, allocated to the last week's slot of the measurement, the schedule and allocation would be provided by the laboratory coordinator on the spot.

    The final mark of the subject would be composed from the averages of the entry quizzes (30%), the averages of the measurement records (20%) and the mark of the exam measurement (50%).

    During exam period:

    nil

    11. Recaps

    Late submission of the measurement record can be approved by the end of the supplementary week, if supplementary fee has been paid.

    The missed measurements (due to missing or failing of entry test) can be substituted during the semester or the supplementary week according to the following rules:

    • Two measurements can be substituted after scheduling it with the laboratory instructor.
    • If there is still a scheduled measuring group during the rest of the semester which has not taken the specified measurement, and the number of participated students allows to join, the measurement can be substituted only in that occasion.
    • If - after discussing with the lab instructor - it is not an option, the measurement can be substituted at the end of the semester, during the supplementary week.
    • In case of the missed measurements are substituted later, then the exam measurement is scheduled, the affected measurement cannot be allocated to the student on the exam measurement.

    It is not possible to have any extra measurement for correcting lower sub-marks.

    12. Consultations In case of it is necessary, after contacting with the laboratory instructor.
    13. References, textbooks and resources The materials for the preparation are available on the subject's moodle site.
    14. Required learning hours and assignment
    Contact hours
    42
    Preparation for contact hours
    50
    Midterm test preparation
    0
    Homework
    0
    Assigned written learning material50
    Exam preparation
    8
    Total
    150
    15. Syllabus prepared by Dr Péter Kiss, associate professor, BME-VIK Department of Electric Power Engineering