COURSES FOR ERASMUS STUDENTS ELECTRICAL ENGINEERING

COURSES FOR ERASMUS STUDENTS ELECTRICAL ENGINEERING List and description of courses Winter semester Course code Forms-hours/week (L T Lab P S) * 1. ELR 021330 Numerical and Optimization Methods (1 0 0 0 0) 2(2) 2. ELR 021331 Power Quality Assessment (2 0 0 0 0) 2(2) 3. ELR 022131 Power System Faults E (2 0 0 1 0) 6(4,2) 4. ELR 022132 Digital Control Systems (2 0 1 0 0) 4(3,1) 5. ELR 023225 Dynamics and Control of AC and DC Drives E (2 0 0 0 0) 4(4) 6. ESN 001500 Advanced Technology in Electrical Power Generation (2 1 0 1 0) 5(3,1,1) 7. ELR 021120 Advanced High Voltage Technology E (2 0 0 0 0) 3(3) 8. ELR 022135 Artificial Intelligence Techniques (2 0 0 1 0) 3(2,1) 9. ELR 022233 Power System Automation and Security E (2 0 0 0 1) 4(3,1) 10.ELR 022532 Electrical Power Systems Management (1 0 0 0 1) 2(1,1) 11.ELR 023311 Electromagnetic Compatibility (2 0 0 0 1) 3(2,1) 12.ELR 023312 Advanced Measurement in Electrical Power Engineering (2 0 0 0 0) 2(2) 13.ELR 023228 Power Electronics (2 0 0 0 0) 3(3) 14.ELR 021337 Photovoltaic Cells E (2 0 0 0 0) 3(3) 15.ELR 021338 Industrial Ecology Selected Issues (1 0 0 0 1) 2(1,1) 16.ELR 022537 Legal Regulations and Investments in Power Systems with Distributed Energy Sources (2 0 0 0 1) 3(2,1) 17.ELR023110 Modeling of Electric Machines (1 0 0 2 0) 3(1,2) 18.ELR022334 Energy Storage Systems E (1 0 0 1 0) 3(2,1) * ) L-Lecture, T-Tutorial, Lab, P-Project, S-Seminar

Summer semester Course code Forms-hours/week (L T Lab P S) * 1. ELR 021332 Selected Problems of Circuit Theory E (2 1 0 0 0) 4(3,1) 2. ELR 022133 Simulation and Analysis of Power System Transients (1 0 2 0 0) 3(1,2) 3. ELR 022134 Digital Signal Processing for Protection and Control (2 0 0 2 0) 5(3,2) 4. ELR 022231 Power System Protection (2 0 0 0 0) 3(3) 5. ELR 022232 Fiber Optics Communication and Sensors (2 0 0 0 0) 2(2) 6. ELR 022331 Renewable Energy Sources (2 0 0 0 1) 3(2,1) 7. ELR 022531 Electric Power System Operation and Control (2 0 0 0 1) 3(2,1) 8. ELR 022137 Protection and Control of Distributed Energy Sources E (1 0 0 0 1) 3(2,1) 9. ELR 022332 Water Power Plants (2 0 0 0 1) 3(2,1) 10.ELR 022333 Renewable Energy Sources E (2 0 0 0 1) 4(3,1) 11.ELR 022536 Integration of Distributed Resources in Power Systems (2 0 0 0 0) 2(2) 12.ELR 023313 Analog and Digital Measurement Systems (2 0 0 0 0) 2(2) 13.ELR 023229 Electromechanical Systems in Renewable Energy Sources (1 0 0 0 1) 2(1,1) * ) L-Lecture, T-Tutorial, Lab, P-Project, S-Seminar

COURSE DESCRIPTIONS Winter semester 1. ELR021330 NUMERICAL AND OPTIMIZATION METHODS Year (I), semester (1) Level:II Obligatory/Optional /sem.(h) MathematicsandMatlabcourse 15 Lecturer:TomaszSikorski,PhD Exam / Course work: Test 2 Outcome:Abilityofoptimizationalgorithmsimplementationforconstrainedandunconstrained 60 Content:Thecoursecontainstheoreticalandpracticalaspectsofsolvingoptimizationproblems. Optimization constrainedproblems.solutionofoptimizationproblems:mathematicalpreliminaries,numerical optimization.linearprogramming,simplexmethod.neuralnetworksandgeneticalgorithmsfor methods.kuhn-tuckerconditions.lagrangianduality.selectedalgorithmsforconstrained formulation,examples.mathematicalmodels.unconstrainedand 2. 1. 3. 2001. J.F.Bonnans:Numericaloptimization:theoreticalandpracticalaspects,Springer-Verlag,2003. E.K.P.Chong,S.H.Żak:AnIntroductiontoOptimization,2ndedition,NewYork,JohnWiley, M.AsgharBhatti:PracticalOptimizationMethods,Berlin,Springer-Verlag2000. 2. ELR021331 POWER QUALITY ASSESSMENT Lecturer:PrzemyslawJanik,PhD MathematicsandCircuitTheory Year (II), semester (3) Level:II Traditional/Distan /sem.(h) 30 cel. 2 Obligatory/Optional Exam / Course work: Course work Outcome:Understandingofthebasicphenomenaandpracticalengineeringaspectsofpower qualityassessmentinpowersystems. 60 Content:Thecoursecontainsthebasicproblemsandpracticalaspectsofpowerqualityassessment inpowersystems.afteranintroductionandgeneralbasis,thefollowingproblemsarepresented: optimization.

harmonics,longdurationvoltagevariations,flicker,powerqualitymeasurement,disturbances classesofpowerqualityproblems,standards,interruptions,voltagesags,transientovervoltages, mitigationmethods,chosenalgorithmsforpowerqualityassessment.acomputer-basedlaboratory supplementsthecourse. 2. 1. ArrillagaJ.WatsonN.R.:PowerSystemQualityAssessment,JohnWiley&Sons,NewYork, 3. BollenM.H.J.:UnderstandingPowerQualityProblemsVoltageSagsandInterruptions,IEEE DuganR.C.,McGranaghanM.F.,BeatyH.W.:ElectricalPowerSystemsQuality,McGraw- Hill,NewYork,USA,1986. Press,NewYork,USA,2000. Lecturer:Prof.JanIżykowski,PhD,DSc /sem.(h) 30 15 Outcome:Gainbasicknowledgeregardingpowersystemfaultsandbasicinformationonthe 30 2 devicessuchasdigitalfaultrecordersandfaultlocators.deepfamiliarizationwithvarious Content:Thecourseconsistsofalectureandproject.Thelecturedealswithdifferentaspectsof powersystemfaults.faultcausesandeffectstogetherwithclassificationoffaultsandanalysisof typicalfaultcurrentwave-shapearedeliveredintheintroduction.then,theaimsoffault problemsofpowersystemfaultsanalysis. calculationsanduseofperunitsarespecified.themethodsusedinfaultanalysisaredescribed.in neutralpointearthedbythecompensationreactorandneutralpointearthedbytheresistorare particularitisfocusedonthesymmetricalcomponentmethod,forwhichequivalentdiagramsof powersystemcomponentsaredescribed,andthensymmetricalandunsymmetricalfaultsin systemssolidlygroundedareanalysed.groundfaultsinnetworkswith:isolatedneutralpoint, described.referenceofshort-circuitcalculationstothepresentstandardisgiven.basic withthespecificproblemsofpowersystemfaultsanalysis. characterized.duringtheprojectstudentscompleteindividualtasksaimedatdeepfamiliarization issuesrelevantfortransformationoffaultcurrentsandvoltagesbyinstrumenttransformersare characteristicofthedevices:digitalfaultrecorderanddigitalfaultlocatoraredelivered.main 2. 1. J.D.Glover,M.Sarma:Powersystemanalysisanddesign,PWSPublishingCompanyBoston, secondedition,1994. 4. 3. J.L.Blackburn:Symmetricalcomponentsforpowersystemsengineering,MarcelDekker,New J-P.Barret,P.Bornard,B.Meyer:Powersystemsimulation:ChapmanandHall,London1997. York1993,Serie:ElectricalEngineeringandElectronics85. P.M.Anderson:Powersystemprotection,IEEEPress,PowerEngineeringSeries,NewYork 5. H.Ungrad,W.Winkler,A.Wiszniewski:Protectiontechniquesinelectricalenergysystems, 1999. 3. ELR022131 POWER SYSTEM FAULTS CircuitTheory Year (I), semester (1) Level:II Obligatory/Optional 4 Exam / Course work/t: Exam Course work 60

MarcelDekkerInc.NewYork,Basel,HongKong,1995. Lecturer:MarekMichalik,PhD,MirosławŁukowicz,PhD Engineering1,2 Completedcourses:FundamentalsofControl /sem.(h) 30 15 Outcome:Knowledgerelatedtothedigitalcontrolalgorithmsdesignforvarioustypesofdigital controllers. 90 Content:Structureofdigitalcontrolsystems,A/CandD/Cconversion,conditioninganddigital fuzzycontrol,statevariablefeedbackcompensation,digitalcontrolwithstateobservers. filteringofinputsignals.directdigitalcontrol:piddigitalregulators,robustdigitalregulators, 2. 1. 3. AufiR.:DigitalControlSystems.PrenticeHall.2004. KuoB.J.:DigitalControlSystems.Hold.ReinhardandWinstonInc.1981. SantinaM.S.,StubberudA.R.,HostetterG.H.:DigitalContriolSystems.OxfordUniversity IsermannR.:DigitalControlSystems.Springer-Verlag.1997. Press.1994. Lecturer:Prof.TeresaOrłowska-Kowalska,PhD,DSc Electronics ControlTheory-basics,ElectricalDrivesandPower /sem.(h) 30 Outcome:KnowledgeofmoderncontrolmethodsDCandACmotordrives;problemsof sensorlessdrives,nonlinearcontrollersapplicationsinelectricaldrives. Content:Basicsofcontrolsystemsynthesisproblemsforelectricaldrives.Controlqualityindexes electricaldrives;examplesoftechnicalrealizationsindcandacdrives.scalarandvectorcontrol methodsinacdriveswithinductionandpermanentmagnetsynchronousmotors.fieldoriented forelectricalmotors,staticanddynamicaloptimizationofelectricaldrives.torquecontrol structures;adjustmentcriteriaforlinearcontrollers.torqueandspeedcontrolstructuresof 4. ELR022132 DIGITAL CONTROL SYSTEMS Exam / Course work: Course work Reports 3 1 30 4. 5. ELR023225 DYNAMICS AND CONTROL OF DC AND AC DRIVES Year (I), semester (1) Level:II Obligatory/Optional Exam / Course work: Exam 4 120

controlanddirecttorquecontrolofacmotors.statevariablesestimationforacmotordrives. Electricaldriveswithmicroprocessorcontrol.Artificialintelligencemethodsinelectricaldrives.In 1. laboratorytasksmodelsandindustrialsolutionsofautomatedelectricaldrivesaredemonstrated 2. WydawniczaP.Wr.,Wrocław,2003. KaźmierkowskiM.P.,TuniaH.,AutomaticControlofConverter-fedDrives,Elsevier-PWN, Orlowska-KowalskaT.,Bezczujnikoweukładynapędowezsilnikamiindukcyjnymi,Oficyna 1994. Lecturer:HalinaKruczek,PhD,DSc,AssociateProfessor /sem.(h) 30 15 cel. 15 Outcome:Knowledge,skillsanddesignbasicsinthefieldofenergyconversionandadvanced 30 30 Content:Thiscoursecoversfundamentalsofthermodynamics,chemistry,flowandtransport processesasappliedtoenergysystems.thetopicsincludeanalysisofenergyconversionin thermo-mechanical,thermo-chemical,processesinexistingandfuturepowersystems,with powerproductionsystemwithnewzeroemissionconcept,nuclearresources. nuclearresources,overarangeofsizesandscalesarediscussed.applicationsincludecombustion, hybrids,supercriticalandcombinedcyclesigcc. emphasisonefficiency,environmentalimpactandperformance.systemsutilizingfossilfuels, 1. FundamentalsofHeatandMassTransfer,FrankP.Incropera,DavidP.DeWitt,JohnWiley& Tutorialsandtheprojectsupplementthe 2. Sons,1996 ands.c.stultzed.41,2005. Steamitsgenerationanduse,TheBacock&WilcoxCompanyaMcDermottcompanyed.ByJ.B.Kitto 3. Thermodynamicsandheatpower,Granet,Irving.,PearsonPrenticeHall,cop.2004. EnergyHndbook,RobertLoftness,1983. Lecturer:Prof.BolesławMazurek,PhD,DSc Fundamentals MathematicsandPhysicsandElectrotechnics andtested. 6. ESN001500 ADVANCED TECHNOLOGY IN ELECTRICAL POWER GENERATION Thermodynamics Year (I), semester (1) Level:II Traditional/Distan Obligatory/Optional Course work Exam / Course work/t: Exam Test (Report) 3 1 1 90 lecture. 7. ELR021120 ADVANCED HIGH VOLTAGE TECHNOLOGY

/sem.(h) 30 3 Exam /T: Exam Outcome:Acquaintancewiththemodernmethodsofgenerationandmeasurementofhighvoltage. 90 Content:Thecoursediscussesthenewesttechnologyissuesandknowledgenecessaryforelectrical Knowledgeabouttheapplicationofhighelectricfieldsinindustrytechnologicalprocesses,in agriculture,medicineandscience. engineers.generationofhighvoltageandhighvoltagemeasurementtechniqueswillbediscussed. willbeshownasexamplesofpracticalhighvoltageengineering.afewlaboratorytrainings Electricalfielddistributionandelectricalfieldcontrolmethodswillalsobepresented.Asignificant partofthelectureisthepresentationofelectricaldischargesingases,fluids,vacuumandsolid dielectrics.thetransmissiondclinesandhighelectricalfieldapplicationfortechnologyprocesses supplementthecourse,givingthepossibilitytomeasurethevoltagesuptoafewhundredkv. 2. 1. 3. BeyerM.,BoeckW.,MoellerK.,ZaenglW.,Highvoltageengineering.Springer1986. HaddadA.,WarneD.,AdvancesinHighVoltageEnginering.InstitutionofElectrical KuffelE.,ZaenglW.S.,KuffelJ.,HighVoltageFundamentals.Newnes2003. Engineers2004. 8. ELR022135 ARTIFICIAL INTELLIGENCE TECHNIQUES Lecturer:WaldemarRebizant,PhD,DSc,AssociateProfessor FundamentalsofControlEngineering Completedcourses:Mathematics,CircuitTheory, /sem.(h) Coursework 2 Exam / Course work: Outcome:Thestudentsareexpectedtopresenttheknowledgeonthetheoryofartificial intelligencetechniqueswithaspecialattentiontotheirapplicationinpowersystemprotectionand 90 Content:Thecoursecoversthefollowingitems:introductiontoartificialintelligencetechniquesin controlproblems. ArtificialNeuralNetworks mainfeatures,neuronetypes,activationfunctions,neuralnetwork powersystemcontrol;expertsystems mainfeatures,structure,inferencemethods,strategiesfor conflictresolving,applicationfields;systemsbasedonfuzzylogic fuzzysignals,membership functions,fuzzysettings,fuzzificationanddefuzzificationmethods,multicriterialalgorithms; architectures,learningmethods,applicationfields;geneticalgorithms evolutionarystrategies, 1. geneticmodifications,applicationexamples;hybridintelligentschemes;applicationexamplesof MA,1989. PaoY.A.: AdaptivePatternRecognitionandNeuralNetworks,Addison-Wesley,Reading, 30 Project 15 30 1 intelligenttechniquesdescribedforpowersystemprotectionandcontrolpurposes.

2. YagerR.R.andFilevD.P.: EssentialsofFuzzyModellingandControl,J.Wiley&Sons,Inc., 4. 3. DillonT.S.andNieburD.(editedby): NeuralNetworkApplicationsinPowerSystems,CRL RinglandG.A.andDuceD.A.(ed.By): ApproachestoKnowledgeRepresentation:An Introduction,ResearchStudiesPressLtd.,Wiley&Sons,Chichester,England,1988. NewYork,USA,1994. 5. Wiley&Sons,1993. PublishingLtd.,London,1996. CichockiA.,UnbehauenR.: NeuralNetworksforOptimizationandSignalProcessing,John Lecturer:Prof.BogdanMiedziński,PhD,DSc /sem.(h) completedcourses:powersystemprotection 30 15 Outcome:Thestudentsareexpectedtopresenttheknowledgeofthetransientphenomena 30 1 whatmethods/systemsshouldbeappliedtoassurethesafeoperationofpowersystems. unitscomponents,convertorsfordigitalprotections,securityproblems,trendsinsubstation Content:Thecourseisintendedtoacquaintstudentswithmodernconceptsinsensingandcontact encounteredinpowersystemsandrelatedprotectionandcontrolconcepts,aswellastoknow automationaswellaspreventiveandadaptiveprotectionsystemsrelatedtopowersystem applications. automationapplications.thecoursedescribeschosenprotectionengineeringproblemsofspecial interesttothestudentandprovidesstudentswithabackgroundforfurtherstudyinscienceand 2. 1. KTVGrattan,Sensors-technology,systemsandApplications,A.HilgerIOPPublishingLtd, PowerSystemProtection,volume4:Digitalprotectionand aisz ng,shortrunpressltd, 1991. 4. 3. Exeter,1997. H.Ungrad,W.Winkler,A.Wiszniewski:Protectiontechniquesinelectricalenergysystems, MarcelDekkerInc.NewYork,Basel,HongKong,1995. Selectedpaperspublishedinrenownedinternationaljournals. Lecturer:Prof.ArturWilczyński,PhD,DSc cel. 9. ELR022233 POWER SYSTEM AUTOMATION AND SECURITY 3 Course work Exam / Course work: Exam (Report) 120 10. ELR022532 ELECTRICAL POWER SYSTEMS MANAGEMENT PowerSystems Traditional/Distan

/sem.(h) 15 Coursework 15 Outcome:Knowledgeaboutmanagementproblemsatenergycompaniesafterpowersystem 30 1 restructuring. Content:Organizationofpowersector.Introductiontothederegulationandrestructuringof powersector.developmentofelectricitymarket.examplesofelectricitymarkets.tasksof transmissionanddistributionsystem Systemplanningundercompetition. Organizationofaccesstothesystem.Electricitypricemechanism,transmissionpricingprinciples. operators.regulationof theelectricityindustry. 2. 1. 3. NewYork Weinheim Brisbane Singapore Toronto,1997. MalkoJ.,WilczyńskiA.,Rynkienergii działaniamarketingowe.oficynawydawnicza S.Hunt,G.Shuttleworth:Competitionandchoiseinelectricity,JohnWiley&Sons,Chichester M.Ilic,F.Galiana,L.Fink:Powersystemsrestructuring,engineeringandeconomics,KLUWER PolitechnikiWrocławskiej,Wrocław2006. 4. Directive2003/54/ECoftheEuropeanParliamentandoftheCouncil,of26June2003, AcademicPublishers,Boston Dordrecht London,1998. 5. PhilipsonL.,WillisH.L.:UnderstandingElectricUtilitiesandDe-Regulation.MarcelDekker, concerningcommonrulesfortheinternalmarketinelectricityandrepealingdirective Inc.,NewYork1999. 96/92/EC. Lecturer:GrzegorzKosobudzki,PhD HighVoltageEngineering Completedcourses:Mathematics,CircuitTheoryand /sem.(h) 30 15 Outcome:AcquaintancewithpracticalaspectsofEMCandpowerqualityinpowerdelivery 30 1 systems. Content:Thecoursecontainsthebasicproblemsandpracticalaspectsofelectromagnetic methodsofelectricalandelectronicequipmentprotectionfromovervoltagesandovercurrents; aspectsofelectromagneticshielding;powerqualityparameters,requirements,standards;influence lightingstrikesandelectrostaticdischarges;emcphenomenageneratedbyconverterfeddrives; compatibilityemc.thefollowingproblemsarepresented:electromagneticdisturbancescausedby ofpowerqualityphenomenaonequipment;non-lineardevicesinfluenceonpowerquality; disturbancesmitigationtechniques;harmonicsreduction;measurements Test 1 Exam / Course work/t: 30 11. ELR023311 ELECTROMAGNETIC COMPATIBILITY 2 Exam / Course work/t: Course work Course work 60

2. 1. 3. DuganR.C.,McGranaghanM.F.,BeatyH.W.:ElectricalPowerSystemsQuality,McGraw- HasseP.:Overvoltageprotectionoflowvoltagesystems,TJInternational,Padstown,2000. Hill,NewYork,USA,1986. PradasKodaliV.:EngineeringElectromagneticCompatibilityPrinciples,Measurmentsand Technology,IEEEPress,NewYork,1996. Lecturer:Prof.NawrockiZdzisław,PhD,DSc,Prof.FleszyńskiJanusz,PhD,DSc /sem.(h) MathematicsandCircuitTheory Coursework 30 measurement. Outcome:Knowledge ofthebasicproblemsandpracticalaspectsofanalogueanddigital Content:Thecoursedealswiththebasicproblemsandpracticalaspectsofanalogueanddigital voltageequipmentinsulation.thecoursefamiliarizesthestudentswiththemeasurementand measurement.afterintroductionandgeneraltheoreticalpart,thefollowingpracticalproblemsare presented:problemsmeasurementofvoltageandcurrent(dcandac),andpowermeter.the generationmethodsofhighvoltage,thepartialdischargesinvestigation.specialemphasisisputon followingsubjectsarepresentedinthecourse:highvoltagemeasurements,diagnostictestsofhigh thepresentationofthephysicalandmetrologicalfundamentsofdifferentkindsofdiagnostictest (electric,acoustic,optoelectronic,physico-chemical),thedetectionofvariousdefectsinthe insulationofequipment,problemsofmoderndiagnostic. 2. 1. J.Mc.Ghee,I.A.Henderson,M.J.Korczyński,W.Kulesza:Scientificmetrology,Technical UniversityofLodz,Lodz,1998. Mc.Ghee,I.A.Henderson,M.J.Korczyński,W.Kulesza:Measurementdatahandling,vol.1 5. 4. 3. D.Kind:Anintroductiontohighvoltageexperimentaltechnique,Vieweg1980. N.Kularanta:Digitalandanalogueinstrumentation.IEE,London,2003. andvol.2,technicaluniversityoflodz,lodz,2001 E.Kuffel,W.S.Zaengel,J.Kuffel:HighVoltageEngeneeringFundaments,Elsevier,2000 /sem.(h) 30 /DistanceL. 12. ELR023312 ADVANCED MEASUREMENTS IN ELECTRIC POWER ENGINEERING T raditional/distancel. 2 Exam / Course work: 90 13. ELR023228 POWER ELECTRONICS Electronics Year (I), semester (1) Level:II Obligatory/Optional Traditional supporting e-learning Lecturer:ZbigniewZałoga,PhD

3 Exam / Course work/t: Course work Outcome:intensifytheoreticalandpracticalknowledgeaboutpowerelectronicssystems. Content:Contains:semiconductorpowerswitchers:SCR,TRIACand 60 Complementarycomponentsandsystems.Converters:rectifiers,AC-controllers,choppers, BJT,MOSFET,IGBT. 2. 1. JohnWiley&Sons,Inc.1995 A.M.Trzynadlowski,IntroductiontoModernPowerElectronics,JohnWiley&Sons,Inc.1998 N.Mohan,T.M.Undeland,W.P.Robbins,PowerElectronics.Converters,Applications,Design, 14. ELR021337 PHOTOVOLTAIC CELLS (E) Lecturer:PrzemysławJanik,PhD PowerSystems /sem.(h) Exam 30 3 Exam / Course work/t: Outcome:Introducephotovoltaiceffectandtheoperationprinciplesofphotovoltaiccells;Describe thefabricationtechnologyofphotovoltaiccellsandphotovoltaicbatteries,theircharacteristicsand 60 parameters;identifytheeffectofvariousfactorsontheconversionefficiencyofphotovoltaic Content:Introductionofbasicconceptsandenergyunits;Identificationofenergysources,analysis concentratingsolarpowersystems. devices;explain transformationandstorageofelectricalenergyfromphotovoltaicmodules;discussconstructionof construction andproduction stepsofphotovoltaicmodules;describe ofenergyresourcesandtheirinfluenceontheenvironment;characterizationofthesolarradiation Descriptionofconstructionandproductionstepsforphotovoltaicmodules,methodsofenergy andthepropertiesoftheearth satmosphere;descriptionofthephotovoltaiceffectandthebasic physicalmodelsofsolarcells.reviewoftechnologies,theparametersandcharacteristicsofthe photovoltaiccells;descriptionoffactorsaffectingefficiencyofphotovoltaicenergyconversion; storageandconversion. 2. 1. 3. 2009 J.D.Myers,SolarApplicationsInIndustryandCommerce,Prentice-Hall,NewJersey1984 V.D.Hunt,HandbookofConservationnadSolarEnergy,VanNostrandReinhold,NewYork1982 S.R.Wenham,M.A.Greek,M.E.Watt,R.Corkish,,AppliedPhotovoltaics,Earthscan,London 15. ELR021338 INDUSTRIAL ECOLOGY SELECTED ISSUES (E) inverters.commonapplicationofconverters,alsoforrenewableenergysourcessystems.

Lecturer:ZbigniewLeonowicz,PhD /sem.(h) none Exam 1 (Presentation) Exam / Course work/t: Outcome:Knowledgeofvariousaspectsofindustrialecology.Capabilityofanalysisand recognitionofproblemsrelatedtowastereductionandmodelingofindustrialprocessesin 60 usage,ensuringacceptablequalityoflife,minimizingtheecologicalimpactofhumanactivity& Content:Fundamentalsofindustrialecology-thescienceofsustainabilityinindustrialand engineeringproblems.theaimsofindustrialecologyare:minimizingofenergyandmaterials accordancewithprinciplesoflawsofnature. 2. 3. 1. AllenbyB,AllenbyR,DeannaJ.:TheGreeningofIndustrialEcosystems,NationalAcademy AcademyofSciences,USA89(February1992):800 803 IEEEWhitePaperonSustainableDevelopmentandIndustrialEcology,IEEE1995 FroschR.A., IndustrialEcology:APhilosophicalIntroduction, ProceedingsoftheNational Press,Washington,1994 16. LEGAL REGULATIONS AND INVESTMENTS IN POWER SYSTEMS ELR022537 WITH DISTRIBUTED ENERGY SOURCES Lecturer:Prof.ArturWilczyński,PhD,DSc PowerSystems /sem.(h) Coursework 2 (Presentation) Coursework Exam / Course work/t: Outcome:Obtainingknowledgeinthefield:nationalandunionlegal,technicalandeconomical conditionsforconstructionoftechnologicalsystemsusingrenewableenergysourcesforsupplyas 30 wellasprinciplesofinvestmentprojectfordistributedanddispersedgeneration. Content:Thefundamentalsoflegalregulationsinthefieldofusageofrenewableenergysourcesin marketsaswellasinvestmentprocessindistributedanddispersedpowersystemswithapplication ofrenewableenergysources(conception,formalandlegalrequirements,financing,realization)are powersystems,europeanunionandnationallegaldocumentsinthefieldofrenewableenergy sources,principlesofwell-balancedexpansion.renewableenergysourcesonelectricityandheat 1. G.Boyle:RenewableEnergy Powerforasustainablefuture,SecondEdition,Oxford 15 Coursework 15 30 1 maintainingtheeconomicviabilityofsystems. 15 15 30 1 alsodiscussed.

2. 3. UniversityPressInc.NewYork,2004 A.Luque,S.Hegedus:Handbookofphotovoltaicscienceandengineering,JohnWileyand Ltd.Chichester,England,2001. T.Burton,D.Sharpe,N.Jenkins,E.Bossanyi:WindEnergyHandbook,JohnWileyandSons 4. 2000. T.Markvart:Solarelectricity,SecondEdition,UNESCO,JohnWileyandSonsLtd.NewYork, SonsLtd.Chichester,England,2003. Lecturer:KrzysztofMakowski,PhD,DSc,AssociateProfessor InformaticsandElectricalEngineering CompletedbasiccoursesofEngineeringGraphics, /sem.(h) 15 /DistanceL. Coursework 30 Outcome:Tolearnprinciplesofpresent-daymethodsofelectromagneticmodelingofelectrical 60 2 machines. Content:Mathematicalgroundsofelectromagneticfieldtheory,electromagneticquantitiesand Maxwell sequations.outlineofthefiniteelementmethod(fem)anditsapplicationto magnetostaticandmagnetodynamiclinearandnon-linearproblems.field-circuitequationsof offieldmodelsoftheconvertersandpresentationsomeexamplesof aisz ngofelectromechanical electromechanicalconverterswithtakingintoaccountmovementofmovingpartsoftheconverter. Methodsforcalculationofelectromagnetictorqueandpowerlosses.Generalrulesforformulation convertersbyfem. 2. 1. DiBarbraP.,SaviniA.,WiakS.:Fieldmodelsinelectricityandmagnetism,Springer,2008 BolkowskiS.iinni:Komputerowemetodyanalizypolaelektromagnetycznego,WNT,Warszawa, 4. 3. LowtherD.A.,SilvesterP.P.:Computeraideddesigninmagnetics,Springer-Verlag,BerlinHeidelbergNew Press,Southampton,1999 1993 HameyerK.,BelmansR.:Numricalmodelinganddesignofelectricalmachinesanddevices,WITT YorkTokyo,1986. SilvesterP.P.,FerrariR.L.:Finiteelements 5. Lecturer:KazimierzHerlender,PhD /sem.(h) Electricaldevices 15 30 17. ELR022110 MODELLING OF ELECTRICAL MACHINES Coursework 1 Exam / Course work/t: 30 Traditional with using of multimedia for electrical engineers, Cambridge University Press, Cambridge, 1983. 18. ELR022334 ENERGY STORAGE SYSTEMS

30 1 2 Course work Exam / Course work/t: Test (Project documentation) basicofbatteryenergystoragedesign. Outcome:Mainaimsofthecoursearegettoknowofdifferentkindsenrgystoragesystemsand Content:Classificationandmaincharacteristicdifferentkindsofelectricalenergystorageinpower 60 Storage(BES),.Comparedthemainparametersthisenergystorageandgivenpossibleareastheir fuelcell,superconductingmagneticenergystorage(smes),ultracapacitorsandbatteryenergy system,suchas:pumpedhydroenergystorage,flywheelsystems,compressesairsystems(caes), 2. 1. Batterie-EnergiespeicherinderElektrizitätsversorgung Kompendium,H.-J.Haubrich 3. [Hrsg],VerlagMainz,Aachen1996 ProceedingsofEU-ProjectICOP-DISS-2140-96,DistributedEnergyStorageforPowerSystems, MarkiewiczH.Urządzeniaelektroenergetyczne.WNT,Warszawa2001. Podred.FeserK.,StyczyńskiZ.A.,Verlag aisz,aachen1998. Summer semester AlgebraandBasicCircuitTheory 1. ELR1311 SELECTED PROBLEMS OF CIRCUIT THEORY MathematicsandDifferentialEquationsandLinear /sem.(h) 30 3 15 1 Lecturer:TomaszSikorski,PhD Exam / Course work: Exam Test knowledgeaboutphenomenainnonlinearcircuits,selectedmethodsofanalysis. Outcome:Abilityofcarryingoutsynthesisofelectricalcircuitswiththeoptimizationapproach, 90 60 Content:ThecoursedealswithselectedproblemsofSynthesisofLinearCircuits&Systems,aswell ofnonlinearcircuits analysisandstructures,withpracticalexamplesandexercises. asanalysisofnonlinearelectricalcircuits-theoreticalandpracticalaspectsoflinearcircuits designbasedondifferentmethodsandrequirements.furthermore,thecoursediscussestheaspects 2. 1. 3. L.A.Chua,C.A.Desoer,E.S.Kuh:LinearadNonlinearCircuits,NewYork:McGraw-HillBook H.Baher:SynthesisofElectricalNetworks,NewYork:J.Wiley,1984. F.Kouril,K.Vrba.:Non-LinearAndParametricCircuits:Principles,TheoryAndApplications, Chichester:EllisHorwood,1988. Co.,1987. applications. 2.

ELR2110 SIMULATION AND ANALYSIS OF POWER SYSTEM TRANSIENTS LinearAlgebra,DifferentialEquations,Numerical Lecturer:Prof.EugeniuszRosołowski,PhD,DSc MethodsforLinearandNonlinearEquations /sem.(h) 1 Exam / Course work: Course Course Outcome:Understandingofdigitalmodelsforthesimulationofelectromagnetictransientsin complexthree-phaseelectricnetworks,abilityofapplyingthemodelsforpracticalproblemsin 30 Content:Thecourseconsistsofalectureandaproject.Bothoftheseformsdealwiththefollowing problems:modellingofphysicalsystems-basicprinciples;numericaloscillationandaccuracyof discretemodels;digitalmodelsofbasicelectricelementswithlampedanddistributedparameters; powersystems. usedinemtpprogramforlinearandnon-linearnetworkequationsolution;emtpapplicationto modelsofselectedthree-phasesystemelements:lines,transformers,generators;modelsofnonlinearelectricelements:diodes,thyristors,varistorsandnon-linearinductance;numericalmethods simulationofselectedproblemswithusingofbasicnetworkelements:transmissionline, MATLABinterface.Duringthelaboratorystudentscompleteindividualtasksaimedatdeep measurement,controlandprotection;analysisofsimulationresults:plotxyprogram;emtp- ofsimulationcases;usingofmodelsmoduleforthesimulationofauxiliaryprocedures: transformer,generator,instrumenttransformers;usingofatpdrawprogramforthepreparation familiarizationwiththespecificproblemsofelectromagnetictransientsanalysisinpowersystems. 2. 1. ElectricalEngineers,London2003. N.Watson,J.Arrillaga:Powersystemselectromagnetictransientssimulation.TheInstitutionof 4. 3. J.D.Glover,M.Sarma:Powersystemanalysisanddesign,PWSPublishingCompanyBoston, secondedition,2002. H.W.Dommel:ElectromagneticTransientsProgram.ReferenceManual.BPA,Portland,1986. 5. W.D.Stevenson:ElementsofPowerSystemAnalysis(4thEd.).McGrawHill,NewYork,1982. J-P.Barret,P.Bornard,B.Meyer:Powersystemsimulation:ChapmanandHall,London1997. 3. ELR2111 DIGITAL SIGNAL PROCESSING FOR PROTECTION AND CONTROL Lecturer:Prof.AndrzejWiszniewski,PhD,DSc,WaldemarRebizant,PhD,DSc,AssociateProfessor andinformatics Completedcourses:MathematicsandCircuitTheory /sem.(h) Teching: 4 Course work Exam / Course work/t: Exam (Report) 120 15 15 30 1 30 15 30 1

knowledgeonthetheoryofdigitalsignalprocessingasappliedtopowersystemcontroland Outcome:Asaneffectofthecoursecompletion,thestudentsareexpectedtopossessthe Content:Thecoursedealswithbasicproblemsandpracticalaspectsofdigitalsignalprocessingfor powersystemprotectionandcontrol.afteranintroductionandgeneraltheoreticalandnumerical processingforgivenpracticalproblemsencounteredinpowersystemprotectionandcontrol. protectionsystems.thestudentsshouldshowtheabilityofchoosingproperalgorithmsofsignal basis,thefollowingpracticalproblemsarepresented:analogfiltration,a/dconversion,digital values),decisionmakingmethodsandalgorithms,chosenalgorithmsofpowersystemcontrol, filtration(fir&iirfiltersdesignandparameters),estimationofsignalparameters(criterion integratedmeasurementandcontrolsystems.acomputer-basedlaboratorysupplementsthe 2. 1. L.B.Jackson:Digitalfiltersandsignalprocessing,KluwerAcademicPublishers,Boston,1986. H.Ungrad,W.Winkler,A.Wiszniewski: Protectiontechniquesinelectricalenergysystems, T.Krauss,L.Shurc,J.Little:SignalprocessingtoolboxforusewithMatlab,UsersGuide. MarcelDekkerInc.NewYork,Basel,HongKong,1995. Lecturer:Prof.BogdanMiedzińskiPhD,DSc of:electricalmeasurement,electricalmachines,electricaldevicesand ElectricalPowerSystems Groundedknowledgeonelectricityandapassinggrade /sem.(h) 30 15 Outcome:Understandingprinciplesofprotectiverelayinginpowersystem,abilityofdesigning 60 2 Content:Objectsandtasksofpowersystemprotection.Mainrequirementsregardingpower andsettingofprotectionschemesforvariouspowersystemelements. highvoltagemotors,distributionandtransmissionlines.powersystemprotectioninpreventive systemrelaying.convertersofmeasurementquantitiesforprotectionneeds.maincriteriafor detectingfaults.relayingprinciplesofmainpowersystemelements,i.e.:generators,transformers, andrestorationmode objectivesandgeneralapplicationprinciples. 2. 1. 3. UngradH.,WinklerW.,WiszniewskiA.,Protectiontechniquesinelectricalenergysystems, HorowitzS.H.,PhadkeA.G.,Powersystemrelaying,RSPEngland1992. Pracazbiorowapodred.B.Synala,Automatykaelektroenergetyczna,ćwiczenialaboratoryjne, MarcelDekkerInc.,NewYork1995. częśći:przetwornikisygnałówpomiarowychiprzekaźnikiautomatykizabezpieczeniowej, częśćii:układyautomatykizabezpieczeniowejiregulacyjnejskryptpolitechnikiwrocł., Wrocław1991. course. 3. 4. ELR2210 POWER SYSTEM PROTECTION 4 Exam / Course work/t: Exam Course work 120 5. ELR2211 FIBER OPTICS COMMUNICATIONS AND SENSORS

Lecturer:Prof.BogdanMiedziński,PhD,DSc AppliedPhysics,ElectronicsandElectromagneticTheory /sem.(h) Prerequisits: 2 Exam / Course work: Course work Course work Outcome:Acquaintancewiththeproblemsofprocessingandtransmissionofinformationby meansofthefibreoptictechniqueandapplicabilityoffibresensorsinpractice. 60 Content:Wavetheoryoflightpropagation.Signalstransmissionandprocessing.Problemsof generation practice multiplexing.opticalphenomenausedinfibresensors,applicabilityofrightandremotesensorsin anddetection.communication systems;expandingthesystem capacityby 2. 1. 3. J.L.Hornet: Opticalsignalprocessing AcademicPressInc.London,1987 1990. ChaiYeh: Handbookoffiberoptics-theoryandapplications,AccademicPress.Inc.London CIGREWorkingGroup35.04: Opticalfibrecableselectionforelectricityutilities,Febr.2001. 6. ELR2312 RENEWABLE ENERGY SOURCES Lecturer:Prof.ZbigniewStyczyński,PhD,DSc AppliedStatistics /sem.(h) 2 Course Exam / Course work/t: Course work Outcome:Understandingofproblemsconcernedwithrenewableenergysources. Content:Thecoursedealswiththebasicproblemsandpracticalaspectsofrenewableenergy sources.afteranintroductionandgeneraltheoreticalbasis,thefollowingproblemsarepresented: 60 windenergy,solarenergy,biomassenergy,geothermalenergyandwaveenergy.presentations disadvantages,technology,applications,examplesofenergyprojects,economics,environmental impactsandbenefits.theseminarsupplementsthecourse. contain:introduction,scientificprinciplesofwork,energyconversion,advantagesand 2. 1. 3. J.Twidell,T.Weir:RenewableEnergyResources,SeventhEdition,SponPress,London,2005. Luque,S.Hegedus:Handbookofphotovoltaicscienceandengineering,JohnWileyandSons Ltd.Chichester,England,2001. Ltd.Chichester,England,2003. T.Burton,D.Sharpe,N.Jenkins,E.Bossanyi:WindEnergyHandbook,JohnWileyandSons 30 15 30 1 30 15 30 1 7.

ELR2518 ELECTRIC POWER SYSTEM OPERATION AND CONTROL Lecturer:Prof.MarianSobierajski,PhD,DSc ProgramminginMatlabandElectricPowerSystems /sem.(h) Test 4 Exam / Course work: Outcome:Knowledgeofcontrolandregulationofvoltageandfrequencyintransientstates. Content:Steady-stateandshort-circuitanalysis.Voltageregulationandvoltagestability.Exciters 120 andvoltageregulators.speedregulators.dynamicandtransientstability. 2. 1. UniversityofTechnology,2007. Sons1997. MachowskiJ.,BialekJ.W.,BumbyJ.R.,PowerSystemDynamicsandStability.JohnWileyand SobierajskiM.,ŁabuzekM.,LisR.,ElectricPowerSystemAnalysisinMatlab,Wroclaw 8. ELR2141 PROTECTION AND CONTROL OF DISTRIBUTED ENERGY SOURCES Lecturer:Prof.EugeniuszRosołowski,PhD,DSc Powersystemfaults /sem.(h) 3 Course Exam / Course work/t: Exam Course work work Outcome:Thecourseprovidesdescriptionsofprotectionrelayingtechniquesappliedindistributed generationnetworks. 90 Content:Thecourseconsistsofthelecture,labandseminar.Alltheseformsdealwiththe followingproblems:thepurposeofpowersystemprotection.basicprotectioncriteriaandmain protection:appliedcriteriaforislandingdetection.protectionofphotovoltaicsources.inthiscourse characteristics.distributedgeneration:overviewofappliedenergysources.line,transformerand generatorprotection.interconnectionsystems:solutionsandrequirements.lossofmains thefocusisontheissuesrelatingtothepowersystemprotectionincludingboththenetwork protectionandtheprotectionofdistributedgeneration. 1. JenkinsN.AllanR.,CrossleyP.,KirschenD.,andStrbacetG.,Embeddedgeneration.The 4. 2. 3. AndersonP.M.,PowerSystemProtection,McGraw-Hill,IEEEPress,1999 BergenA.R.,VittalV.,Powersystemsanalysis.PrenticeHall,UpperSaddleRiver,N.J.,2000. PatelM.R.,WindandSolarPowerSystems.CRCPress,BocaRaton1999. InstitutionofElectricalEngineers,London2000. 30 Test 15 15 15 1 15 30 30 1

Year (I), semester (2) Level:II Obligatory/Optional 9. Lecturer:KazimierzHerlender,PhD ELR2343 /sem.(h) Electricaldevices WATER POWER PLANTS 2 Course Exam / Course work/t:: Course work work Outcome:Togetbasicknowledgeofdesign,buildingandexploitingofhydropowerstations. Content:Thescopeoftheobeysproblemsofdesign,buildingandexploitingofhydropower 60 hydroplantsautomationandcontrol(includingcontrolofturbinesandgenerators);problemsof stations,includingestimationofhydrologypotentialofwater,constructionofbasichydrotechnical andelectricalequipment,classificationofhydroplantsandtypesofturbines,basicproblemsof 2. 1. BobrowiczWładysław,SmallHydroPower InvestorGuideLeonardoEnergy,Utilisation 4. 3. Allan.UndershotWaterWheel.2008 HarveyA.,Micro-hydropower,2004, Shannon,R.WaterWheelEngineering.1997 GuideSection8 DistributedGeneration,Autumn2006 5. Pacey,A.TechnologyinWorldCivilization:AThousand-yearHistory,1997 10. ELR2345 RENEWABLE ENERGY SOURCES Lecturer:Prof.ZbigniewStyczyński,PhD,DSc AppliedStatistics /sem.(h) 3 Course Exam / Course work/t: Exam Outcome:Understandingofproblemsconcernedwithrenewableenergysources. Content:Thecoursedealswiththebasicproblemsandpracticalaspectsofrenewableenergy sources.afteranintroductionandgeneraltheoreticalbasis,thefollowingproblemsarepresented: 90 windenergy,solarenergy,biomassenergy,geothermalenergyandwaveenergy.presentations disadvantages,technology,applications,examplesofenergyprojects,economics,environmental impactsandbenefits.theseminarsupplementsthecourse. contain:introduction,scientificprinciplesofwork,energyconversion,advantagesand 30 15 30 1 planningofsmallhydroplants law,procedures,feasibilitystudies. 30 15 30 1

4. 5. 6. J.Twidell,T.Weir:RenewableEnergyResources,SeventhEdition,SponPress,London,2005. Luque,S.Hegedus:Handbookofphotovoltaicscienceandengineering,JohnWileyandSons Ltd.Chichester,England,2001. Ltd.Chichester,England,2003. T.Burton,D.Sharpe,N.Jenkins,E.Bossanyi:WindEnergyHandbook,JohnWileyandSons Lecturer:Prof.MarianSobierajski,PhD,DSc systemprotection,energyproduction ElectricalPowerSystem,Powersystemfaults,Power /sem.(h) 30 15 Outcome:Familiarizestudentswithproblemsandtechnicalaspectsforintegratingofdistributed 30 1 Content:Classificationofdistributedenergyresources(DER).AimedlevelpenetrationofDERin energyresourcesinpowersystems. electricpowersystem.windgeneration.modelingofder.schemesandpointsofconnectionof network.technicalrequisitesforproducerconnectiontothepublicelectricpowergrids.influence distributedgenerationtoadistributionsystem.loadflowandshortcircuitsimulationinelectric powernetworkwithdispersedgeneration.analysisofimpactofdistributedgeneratorsonpower generators.microgrids. loadflow,short-circuitcurrents,voltagechanges,powerqualityandprotectionofdistribution ofderonfrequencyregulationinelectricpowersystem.autonomousoperationofdistributed 1. JenkinsN.,AllanR.,CrossleyP.,KirschenD.,StrbacG.:EmbededGeneration.Power& LoiLeiLai,TzeFunChan:DistributedGeneration.2007JohnWiley&Sons,Ltd. Energy2000. electricalmeasurements Basisofelectricalengineering,Basisofelectronics, /sem.(h) 30 15 Lecturer:DanielDusza,PhDLecture Outcome:Providingofknowledgeandskillsinconcerninganaloganddigitalmeasuringsystems 1 design 30 Tutorials Content:Functionaldiagramsofmeasuringsystemsusesinrenewableenergysources;converting signals sensortypes,analoganddigitalblocksoftransducersusinginrenewableenergy 11. ELR2541 INTEGRATION OF DISTRIBUTED RESOURCES IN POWER SYSTEMS 3 Exam / Course work/t: Test Course work 90 2. 12. ELR3352 ANALOGUE AND DIGITAL MEASUREMENT SYSTEMS 2 Laboratory Project Seminar Exam / Course work/t:: Test Course work 60

measurements;principleofconstructionofmeasuringsystemtomeasure:windspeed,wave energy,passivesolarbuildingenergy,temperatures,noises,flows,vibrations;controland processingequipment,programmableinstruments;evolutionofrenewableenergymeasuring systems. 2. 4. 1. 3. JungW.,ICOpAmpcookbook,Prentce-Hall,PTR,1999. JungW.,OpAmpapplications,Handbook,Elsevier/Newnes,Oxford2006. ClaytonG.,WinderS.:Operationalamplifiers,Newnes,Oxford,2003. LyonsR.G.,Understandingdigitalsignalprocessing,AddisonWesleyLongman,1997. HorowitzP.,HillW.,Theartofelectronics,CambridgeUniversityPress,NewYork,2007. electricalmeasurements Basisofelectricalengineering,Basisofelectronics, /sem.(h) Prof.KrzysztofPienkowski,PhD,DSc 15 15 Lecturer: Outcome:Providing 30 1 converterapplicationinrenewableenergysystems. of knowledge converterstructuresappliedforconversionofprimaryenergyandonelectromechanical processeswhich aswellasintheonesintegratedwithpowersystems.courseissupplementedby course appearin isrenewableenergysystemsworkingin concerned electromechanical aspects autonomicsystems of frequency seminar energysystems. assessmentwhere of particular students prepare energy conversion presentationsnetworks applied subjects related renewable [1] [2] ModellingandControl.JohnWiley&Sons,2009. Anaya-LaraO.,JenkinsN.,EkanayakeJ.,CartwrightP.,HughesM.:WindEnergyGeneration. [3] [4] Sons,2001. BurtonT.,SharpeD.,JenkinsN.,BossanyiE.:WINDENERGYHANDBOOK.JohnWiley& JohnsonG.L.:WINDENERGYSYSTEMS.Manhattan,KS.ElectronicEdition,2001. [1] Press,1992. VasP.:ElectricalMachineanddrives.Aspace-vectortheoryapproach.OxfordUniversity [2] [3] Sons,1959. WhiteD.C.,WoodsonH.M.:ElectromechanicalEnergyConversion.NewYork,JohnWiley& SeelyS..:ElectromechanicalEnergyConversion.NewYork,McGrawHill,1962. KrauseP.C.:Analysisofelectricmachinery.McGrawHill,1986 5. 13. ELR023229 ELECTROMECHANICAL SYSTEMS IN RENEWABLE ENERGY SOURCES 1 Exam / Course work/t:: Test Presentation 30 Content: The Supplementary reading: