Berry Zaat, Infrastructure & Cities, Power Quality / Energy Automation, Tel: 070-3333122 Siemens NL 2013 Dinsdag 23 April
Agenda Introductie Van conventionele netwerken naar smart grids Power Quality; Wie heeft ermee te maken Power Quality; Een complex thema (integratie van normen in de oplossingen) ACM: Autoriteit Consument & Markt Producten en oplossingen, klaar voor de toekomst SIMEAS SAFIR An Information Platform (not only) for Transmission Company Afsluiter Reductie van storingsminuten film SAFIR (2+3 min) Page 2
Van conventionele netwerken naar smart grids (1) Page 3
Van conventionele netwerken naar smart grids (2) Page 4
Van conventionele netwerken naar smart grids (3) Page 5
Power Quality Waarom is dit belangrijk! Malfunction of computers and communication equipment Damage of home electronic equipment Tripping the drive systems of automated manufacturing processes Trans. 8% Voltage Swells 29% Interruptions 3% Misoperation of protective relays, saving your assets Generation of excessive losses and heating etc Voltage Sags 60% Economic losses EUR: about 300 Billion EUR/year worldwide!!!! Page 6
Power Quality: Niet alleen voor netbeheerders Trends Customer challenges Increasing energy costs Increasing energy costs: Drive variable operating costs because 50 60% of these are energy costs. CO 2 reduction CO 2 reduction: A typical refinery needs carbon certificates for ~170 kg CO 2 / gross ton of production. Grid capacity / Reliable energy supply Energy outages: 1 hour outage = 1.000,000 revenue loss for refinery operator. Minimizing of production costs Source: Mineralölwirtschaftsverband MWV Page 7
Huidige status Nederland - Energie Nederland: - Richtlijnen voor toelaatbare harmonische stromen - Netbeheer Nederland: - PQM project (voor TSO en DSO) - ACM: - Netcode - ACM publiceert Factsheets Kwaliteit Regionale Netbeheerders - Meetrapport uitgevoerd door Laborelec (2012) - Commissies, verenigingen, gebruikers en netbeheerders: Hoe om te gaan met dips en transienten Transparantie op het overdrachtspunt? Waarom niet gezamenlijk meten en gegevens delen? Page 8
Spanningskwaliteit vanuit optiek van de ACM Spanningskwaliteit als een belangrijk aspect in het waarborgen van de betrouwbaarheid van de elektriciteitsnetten (wettelijke taak, art. 16, eerste lid, onderdeel b van de Elektriciteitswet) Verantwoordelijkheid van netbeheerders en afnemers Is het huidige niveau van spanningskwaliteit goed? Gewenste ontwikkelingen: Monitoring Registratie Transparantie Aansluiting bij EU ontwikkelingen Page 9
ACM aanbevelingen n.a.v. onderzoek 1. Normering meer normen: - Spanningsdips in MS netten 2. Betrouwbaar beeld over spanningskwaliteit meer metingen: Alle aansluitingen op EHS en HS netten voorzien met continue metingen Alle (E)HS/MS stations voorzien met continue metingen voor spanningsdips Steekproef in MS en LS netten vergroten van 60 naar 250 weekmetingen 3. Transparantie meer transparantie: Verschillende verbeteringen in de rapportages Openbare rapportage tool voor het brede publiek Uniforme behandeling en registratie van klachten 4. Impact van speciale projecten meer duidelijkheid: Impact van de speciale projecten inzichtelijk maken voor het brede publiek Indien nodig metingen op speciale projecten alsnog plaatsen Page 10
Producten en Oplossingen voor Power Quality: Klaar voor de toekomst Page 11
Recording Characteristics Causes Power Quality, een complex thema. Power Quality Supply Quality Voltage Quality Lightning strike Outage of equipment Short circuits Automatic reclosing Start-up or shutdown of large consumer items (motor) Arc furnaces Welding plants Motor starting Electromagnetic interferences Fault records (V/C) Synchrophasors Frequency Active- / Reactive power Binary signals Process signals EN 50160 / Netcode NL Voltage dip / sag or swell Supply voltage variations Noise Harmonics Flicker Transients Protection PMU Fault Recording PQ Recording IEC61850 /. SIPROTEC Other Vendors SIMEAS R SIMEAS Q80 Page 12
Power Quality Standaards: Een zeer belangrijke stap naar transparantheid Customer Standard (LV, MV and HV) EN 50160 Local Standards or Grid Codes Performance Standard (Class A, B, S) IEC 61000-4-7 Harmonics IEC 61000-4-30 Measurement of voltage quality IEC 61000-4-15 Flickermeter Product Standard - How to design IEC 61557-12 PQI: IEC 62586 (2011/12) Power Quality has defined standards and rules. These rules bring transparency Page 13
Systems Core Functionality Business Segments Power Quality Sensoren Grid Monitoring Power Quality Monitoring Power Monitoring Explanatory / Operative Explanatory / Regulative Software Economical and Operative Fault / Contin. Recording Event based Recording Fault Locating Black-out Prevention Network Monitoring Wide Area Phasor Measurement units Monitoring Transients Flicker Harmonics Reporting IEC61000-4-30 A/S EN50160 Waveform Capture Voltage Events Power measurement Limits violations Analog. Outputs Binaries Inputs /Outputs Temperature Sensors Power / Process Monitoring Load Management I/O 20mA Fault Recorder and PMU Power Quality Recorder Power Meter, Transducer and SU s SIMEAS R/-PMU -> 7KE85 SICAM Q80 SICAM P855 SICAM P50 SICAM SU Plattform Power Quality and Measurement (PQM) targets to supply accurate and reliable monitoring devices and software systems. Page 14
Power Quality and Measurements Devices Overview SICAM P50 T MMU P850 P855 Q80 V, I, f, P, Q, S, Energy, Angle, cos phi Alarm Log Individual Harmonics 21st - 21st 40th 40th 50th AVG, Min, Max - - - Limit Violations Accuracy (IEC 62053-22 Class 0.2S) Web Browser for Parameterisation / Evaluation P Par I/O 2BO/ Opt 2BO/ 4AO 2BO 2BO 2BO 4BO/4BI Time Syncronisation Serial NTP NTP NTP NTP NTP/GPS/IRIGB, DCF77 Serial Communication Modbus RTU /Profibus/T103 Modbus RTU /T103 ModbusRTU /T103 ModbusRTU /T103 ModbusRTU /T103 - Ethernet Communication - Modbus TCP/ IEC61850 Modbus TCP/ T104 Modbus TCP/ IEC61850 Modbus TCP/ IEC61850 Modbus TCP Accuracy (IEC6100-4-30) - - - - Class S Class A Data recording for voltage quality EN50160 Evaluation / Reporting Waveform recording / fault rec. Internal Memory Size 1MB 2GB 2GB Transients Page 15
Power Quality If you cannot measure it, you cannot improve it. Lord Kelvin Page 16
PQ op alle spanningsniveaus System Automation, SCADA, DMS, EMS IEC 61850 Applications Evaluation from Substation and Distributed Generation data EN50160 Power Quality Reporting Events Analyse Load Profile Network Power Flow Voltage, frequency and harmonics profile Limit Violation Alarming and Command over 2 binaries High Voltage / Medium Voltage Substation 110KV / 20kV 20KV 20KV Medium Voltage / Low Voltage Low Voltage Page 17
Power Quality geïntegreerd en beheerd in in uw organistatie Integrated utility business operation Added value network management & optimization Customer Care Marketing Enterprise Bus Advanced applications Assets Managm. Data warehouse Network planning... Network PQ Information information management... Regulation Gateway Power Excellence Network control & supervision DB SCADA etc. Information gateway Export Report Diagrams Communication Partner, market, etc. $ Trader Multi-site Communication networks Power Exchange Field data acquisition, local control & automation Fault recorder Power Quality Meter Power Quality Page 18
Lesson learned alleen power quality/storingsregistratie data, zelfs van de juiste meters betekent helemaal: niets Page 19
Uw ervaring, onze kennis A Power Quality Project does not mean a system providing data, but a system providing information Page 20
Welke informatie heeft u nodig? Continuïteit, betrouwbaarheid en leveringszekerheid in uw processen. Analyses voor evalueren storingen Foutplaatsbepaling / lokalisatie Terugbrengen storingsminuten Genereren van Netkwaliteitsrapportages / on-line beschikbaar te stellen. Preventief onderhoud / onderhoud ACM -> PQ Rapportage / Dips / PQM -> transparantheid informatie Informatie Page 21
Smart Grid Compass The consultancy competence for power quality, and Phases Defining PQ Purposes Measuring Concept Define Devices Software Concept System Integration Understand the PQ Standards, and Europe Implementation Define Regulative, Explanatory and Systemic PQ Purposes Define Measuring points Define Measuring devices and Communication and System Solution Activities Software Implementation Tests, Training Analysis of Information, controlling, action plan, Standards adaptation The Project concept helps to identify the measurement point, the measurement purposes by analyzing the whole work and the information flow! Page 22
SICAM PQS / SAFIR Measure: Archiving: Analyses: Protection Relays Fault Recorder Power meter DataCollector with variable protocols Cockpit Autom. Reports Gridcode SICAM PQS & PQ Analyzer / SAFIR Improvement: Commissioning Define Measures: Consulting Page 23
SICAM SAFIR Real-time system Uitgangspunten 1. Koppeling met SCADA en GIS. 2. Simulatie op (actuele) net data: spanning. stroom, vermogen, harmonische vervuiling. 3. Koppeling met beveiliging data base PDMS Voordelen 1. Tiijd en kosten besparing. 2. Automatische analyses en rapportages. 3. spanning en stabiliteit analyses. 4. Transienten en stabiliteit. 5. Storing analyse. 6. Belastingvoorspelling. Page 24
SIMEAS SAFIR (1) Modulair Information Platform not only) for Transmission Companies Page 25
SIMEAS SAFIR (2) An Information Platform (not only) for Transmission Companies - Asset monitoring - Transformer monitoring - Circuit Breaker monitoring SIMEAS SAFIR - Fault analysis - Fault location - Voltage dips & swells - Frequency monitoring - Measuring and recording Page 26
Faults in Networks Numerous Information Sources Available for Analysis Transmission network Fault Data sources available at station level (include different vendors) Numerical protections Digital fault recorders Power Quality recorders Fault data Page 27
Manual Fault Analysis Numerous Factors cause Inefficiency As is situation Collect the data from different sources Data management, standardization Identify the files, signals and features of interest Combine with correct power system data Perform calculations Quickly publish reports Result Error prone, time consuming No standard used thus a standard needs to be created for a fault analysis What signals and what files are relevant Is this file relevant for the network event analysis Time consuming manual calculations and analysis of the fault The report can take hours if not days before a report is made Page 28
SIMEAS SAFIR Detail Automated Data Processing for Automatic Fault Analysis / Power Quality / Measurements Rapports PQ Manager Station Computer 1) 1) Digital Fault Relay Page 29
Netkwaliteitsrapportages Report examples: - PQ Explorer - PQ Inspector Page 30 Mai 2012
Storingsanalyse Page 31
Spanningsdips registratie Spanningsdips in HS-netten Restspanning U (%) 90 > U 80 80 > U 70 70 > U 40 40 > U 5 5 > U Duur t (ms) 10 t 200 200 < t 500 500 < t 1.000 1.000 < t 5.000 5.000 < t 60.000 0,75 4 0,00 0 0,25 2 0,19 1 0 0 12 6 0 0 4 3 3 3 0 0 0,88 5 0,00 0 0,00 0 0,00 0 0 0 14 6 0 0 0 0 0 0 0 0 0,56 4 0,06 1 0,06 1 0,00 0 0 0 9 5 1 1 1 1 0 0 0 0 0,13 1 0,00 0 0,13 1 0,00 0 0 0 2 2 0 0 2 2 0 0 0 0 0,06 1 0,00 0 0,00 0 0,00 0 0 0 1 1 0 0 0 0 0 0 0 0 Het totale aantal locaties waarop spanningsdips zijn gemeten 16 Toelichting 150 kv, 5 storingsschrijvers operationeel. 24 Spanningsdips geregistreerd waarvan 6 gemeenschappelijk die door de diverse storingsschrijvers zijn gemeten 50 kv, 11 storingsschrijvers operationeel. 30 spanningsdips geregistreerd waarvan 3 gemeenschappelijk met de diverse 150 kv storingsschrijvers en 12 met de diverse 50 kv storingsschrijvers. Page 32
Foutplaatsbepaling Clear arranged fault location report Topological information Type of fault: e.g. L1-Ground Distance in km/miles with tolerance indication Relative Distance Used fault location algorithm Start, End time and duration of fault Maximum current Fault current and voltage Page 33
Management overview: PQ Inspector Select Diagrams Page 34
SIMEAS SAFIR Automatic Detection of Fault Location as Support for Asset Managers Comprehensive Analysis Features Automatic Detection of Fault Location by Analysis of Various Sources Page 35
Use Case for Asset Managers: On a Trip Have the Correct Relays Had a Pick-up and Tripped In case of a line fault, after having given the source systems some time to transfer the data, SIMEAS SAFIR should verify that all expected recordings are available and clearly warn the protection expert if this isn't the case, in order to draw his attention on the event. Page 36
SIMEAS SAFIR Efficient Tools to Improve Response Time of Field Crews Page 37
SIMEAS SAFIR A Function Wise and Time Scale Wise Scalable Solution SIMEAS SAFIR Page 38
SIMEAS SAFIR Different Time Scale of Applications Addresses Different Stakeholders Time Scale Early warning Real time Mid term ( day / week ) Long term (months / years ) Important phase shifts, frequency events, islanding Anomalies at interconnection and delivery points Insufficiencies in regulation (frequency, voltage ) Situation Awareness Lightning Strike correlation, 2ndary arc detection Event Analysis, including fault location Protection anomalies, inconsistencies Power quality Reporting, archiving of events Asset Management (OHL 1), CB 2), ) and planning Improvement of reliability Anticipation, training, grid expertise Network Operator Asset Manager 1) Overhead line 2) Circuit Breaker Page 39
SICAM SAFIR: Demo / Film Start Film Page 40
Reference Examples Installed SIMEAS SAFIR Solutions for a Smart Grid Installation of the SIMEAS SAFIR since 2006 - Data gathering - Fault Analysis & classification - Fault Location - Power monitoring - Analysis of Synchrophasors - CB monitoring Page 41
Final, work together Page 42
Thank you for your attention! Page 43