Test Plan for Pole 3 commissioning
|
|
- Melinda Lamb
- 5 years ago
- Views:
Transcription
1 Level on Pole under Test Direction Test (hrs) a) Reactive Control Tests- Manual control with Temporary Interface 66. Energize sub-banks manually, Haywards, Filter bank 5 n.a Energize sub-banks manually, Haywards, Filter F7 n.a Energize sub-banks manually, Benmore, Filter bank 5 & 6 n.a AC Filter Protection, simulated protection trip, Haywards n.a AC Filter Protection, simulated protection trip, Benmore n.a. - b) Reactive Control Tests- Automatic control with Temporary Interface 65. AC Filter Protection, MW, simulated protection trip, Haywards GndRet P AC Filter Protection, MW, simulated protection trip and temporary interface is switched 3 off,(test fail safe logic), Benmore GndRet P Steady State operation, MW, Temporary Interface HAY being switched off, (test fail safe logic), Haywards GndRet P Steady State operation, MW, Temporary Interface BEN being switched off, (test fail safe logic), Benmore GndRet P RPC HAY, MW GndRet P RPC BEN, MW GndRet P RPC HAY, disconnect HAY_WIL_, MW, Voltage Control GndRet P Filter Control during power ramping, 3 - MW, HAY: Voltage Control,BEN: Q-Control Filter Control during power ramping, 3 - MW, HAY: Voltage Control,BEN: Voltage Control kv Filter Control during power ramping, MW, HAY: Voltage Control,BEN: Q-Control Filter Control during power ramping, MW, HAY: Voltage Control,BEN: Voltage Control kv GndRet P GndRet P GndRet P GndRet P c) Off-Voltage Tests Pole 3 with Temporary Interface. Pole 3 Earthed to Stopped status (manual and automatic mode) n.a. -. Pole 3 Earthed to Stopped status (manual and automatic mode) n.a. -.5 Pole 3 Stopped to Standby status (manual and automatic mode) n.a Pole 3 Stopped to Standby status (manual and automatic mode) n.a Pole 3 Standby to Blocked status (manual mode only) n.a. -. Pole 3 Standby to Blocked status (manual mode only) n.a. -.5 Pole 3 Ground Return to Open Line Test status (manual and automatic mode) at Benmore -. Pole 3 Connect / Disconnect Filter (manual and automatic mode), Haywards -.5 Pole 3 Connect / Disconnect Filter (manual and automatic mode), Benmore - 3. Pole 3 Off-voltage each tripping circuit, Haywards, including temporary interface n.a Pole 3 Off-voltage each tripping circuit,benmore, including temporary interface n.a Filter Protection Pole 3, simulated protection trip, Haywards n.a Filter Protection Pole 3, simulated protection trip, Benmore n.a. - d) Energisation Tests Pole 3 with Temporary Interface and partly with P in operation 3.5 Pole 3 ESOF Button test, (converter in BLOCKED status) n.a Pole 3 ESOF Button test, (converter in BLOCKED status) n.a. -
2 Level on Pole under Test Direction Test (hrs) 5. Energize Converter Transformer Pole 3, Haywards, (via separate bus if Pole is in operation) n.a Energize Converter Transformer Pole 3, Benmore, (via separate bus if Pole is in operation) n.a Electromagnetic radiation (walkie-talkies, cellular phones), MW 8 3. Electromagnetic radiation (walkie-talkies, cellular phones), MW 8 6. Open Converter Test Pole 3, Haywards GndRet P3 6. Open Converter Test Pole 3, Benmore GndRet P3 6.6 Open Line Test Pole 3, Haywards GndRet P3 6.8 Open Line Test Pole 3, Benmore GndRet P3 6.8 Bipolar Cross Trip, MW, simulated protection trip Pole 3,, Transformers in status BLOCKED 6.9 Bipolar Cross Trip, MWsimulated protection trip Pole,, Transformers in status BLOCKED 6. Pole 3 3 MW, Standby to Blocked status for com. round power, (manual and automatic mode), 3 Pole in operation Pole 3 3 MW, Standby to Blocked status for com. round power, (manual and automatic mode), 3 Pole in operation Energize Converter Transformer Pole 3, MW, HAY, transformer with northward transfer, (Pole in operation) GndRet P Energize Converter Transformer Pole 3, MW, BEN, transformer with southward transfer, (Pole in operation) GndRet P Open Line Test Pole 3, 5 MW, Pole in operation, Haywards 5 GndRet P 5 6. Open Line Test Pole 3, 5 MW, Pole in operation, Benmore 5 GndRet P 5 e) Low Load Tests up to MW Pole 3, existing Pole with Temporary Interface 6. Deblock Pole 3, 35 MW 35 GndRet P Block Pole 3, 35 MW 35 GndRet P Deblock Pole 3, 35 MW 35 GndRet P Block Pole 3, 35 MW 35 GndRet P Pole 3 Converter Protection, 35 MW, simulated protection trip, Inverter 35 GndRet P Pole 3 Converter Protection, 35 MW, simulated protection trip, Rectifier 35 GndRet P Steady State Performance Pole 3, 35 MW 35 GndRet P Steady State Performance Pole 3, 35 MW 35 GndRet P Station Control Locations, 35 MW -> MW 35 GndRet P System Control Locations, 35 MW -> MW 35 GndRet P Control Levels, 35 MW -> MW 35 GndRet P Gamma Step Response, 35 MW, 7 -> ->7 35 GndRet P Multiple Valve Misfiring Rectifier, 35 MW, Pole 3 35 GndRet P P-/I- Mode Pole 3, MW, Monopolar operation GndRet P3.6 Pd Step Response P3, MW, Pd=.7->.6->.7p.u GndRet P3.3 Id Step Response P3, MW,Id=.3->.63->.3 p.u, GndRet P3. Reversal, ==>, 7 MW -> 7 MW, manual, Pole 3 7S-7N GndRet P Ud Step Response, MW, Ud=.->.95->.p.u GndRet P3 8.3 Multiple Commutation Failure Inverter, MW, Pole 3 GndRet P Bipolar Cross Trip, MW, switching off temporary interface at HAY, - -5
3 Level on Pole under Test Direction Test (hrs) 6.83 Frequency stabilization control, MW, Monopolar operation, delta f at HAY, Inverter GndRet P Frequency stabilization control, MW, Monopolar operation, delta f at HAY, Rectifier GndRet P Frequency stabilization control, MW, Bipolar operation, delta f at HAY, Inverter Frequency stabilization control, MW, Bipolar operation, delta f at HAY, Rectifier Spinning reserve sharing, MW, Bipolar operation, delta f at HAY Spinning reserve sharing, MW, Bipolar operation, delta f at HAY System Ride through test in North Island, MW 6.33 System Ride through test in South Island, MW Bipolar Operation, MW, Pole trip, takeover Pole 3 f) Medium Load Tests up to MW Pole 3, existing Pole with Temporary Interface 6.3 Deblock Pole 3, MW, Pole in Operation Block Pole 3, MW, Pole in Operation Deblock Pole, MW, Pole 3 in Operation Block Pole, MW, Pole 3 in Operation Deblock Pole, MW, Pole 3 in Operation Block Pole, MW, Pole 3 in Operation Deblock Pole 3, 5 MW, Pole in operation Block Pole 3, 5 MW, Pole in operation Deblock Pole 3, 5 MW, Pole in operation Block Pole 3, 5 MW, Pole in operation Switch off and back on one first grade supply one at a time, 3 MW, Pole Switch off and back on one first grade and second grade supply one at a time (on site only), MW, Pole Switch off and back on each redundant component one at a time, Pole 3, 3 MW Filter Protection, 3 MW, simulated protection trip, Pole 3, Haywards Filter Protection, 3 MW, simulated protection trip, Pole 3, Benmore Reduced Voltage, 3 MW, Pole 3 3 GndRet P Bipolar Operation, 3 MW, Pole 3 trip, takeover Pole, reduced voltage 5kV Bipolar Operation, 3 MW, Pole trip, takeover Pole 3, reduced voltage 5kV Deblock pole, ramp power, block pole, 35 MW -> MW, HV telecontrol (Pole Control) 35 - permanent off GndRet P Deblock pole 3, ramp power, 35 MW -> MW, block pole 3, 3 MW, HV telecontrol (Pole Control) temporary off, Pole in operation Transfer Ud control->gamma control, MW GndRet P Transfer Ud control->id control inverter, MW GndRet P3 3.7 Pd Step Response P3, MW, Pd=.5->.5->.5 p.u GndRet P3. Id Step Response P3, MW, Id=->.-> p.u GndRet P3 8. Single Commutation Failure Inverter, MW, Pole 3 GndRet P3 6.3 Single Commutation Failure Inverter, MW, Pole Run-back Functional Test MW, initiate module by Operator limit, (deltap= MW)
4 Run-back Functional Test MW, Modify dynamic Plim calculation for TOV cases in northflow in the controls, (P_Line, P_Condenser,P_Transfromer, P_Statcom, P_AC_voltage, P_Special, Low_/High_Demand), (deltap= MW) Run-back Functional Test MW, initiate module by Operator limit, (deltap= MW) Energize HAY / kv Transformer, MW, with northward transfer and without POW switching Energize Converter Transformer Pole 3, MW, HAY, transformer with northward transfer Level on Pole under Test Direction GndRet P GndRet P Test (hrs) Energize Converter Transformer Pole 3, MW, BEN, transformer with southward transfer GndRet P Energize HAY / kv Transformer, no POW, MW GndRet P RPC_BEN, MW, D_BEN (disconnect, reconnect), P on section A, P3 on C RPC_BEN, MW, A_BEN (disconnect, reconnect), P on section A, P3 on C RPC_HAY, MW, D_HAY (disconnect, reconnect), P3 on section A, P on C RPC_HAY, MW, A_HAY (disconnect, reconnect), P3 on section A, P on C Line faults, MW, existing Pole, mix of HAY/ BEN Line, several locations, kv, Line faults, MW, existing Pole 3, mix of HAY/ BEN Line, several locations, kv, Bipolar Operation, MW, Pole trip, takeover Pole System Ride through test in North Island, MW System Ride through test in South Island, MW 6.35 HAY ph AC Fault, %, ms, MW, Trip HAY-BPE kv circuit HAY ph AC Fault, %, ms, MW, Trip HAY-BPE kv circuit BEN ph AC Fault, %, ms, MW, Trip BEN-OHC kv circuit BEN ph AC Fault, %, ms, MW, Trip BEN-OHC kv circuit Low voltage ride through test, MW, (3 sec AC undervoltage with.75 p.u. recovery), Pole 3, Pole operated in separate mode at MW.6 Under frequency test, MW, Pole 3, Pole operated in separate mode at MW 6.38 Single Commutation Failure Inverter, MW, Pole 3, (P3: MW, P: MW) 35 g) High Load Tests up to 3 MW, Pole 3, existing Pole with Temporary Interface 6.39 Bipolar Operation, 5 MW, Pole 3 trip, takeover Pole 5 5. Radio and TV Interference, 35 MW - MW 35- GndRet P3 35. AC Harmonic Filter Performance, 35 MW - MW, ( Quality) 35- GndRet P Ramp, 7 MW -> MW, - MW/min Ramp, MW -> 7 MW, - MW/min Ramp, 7 MW -> MW, - MW/min Ramp, MW -> 7 MW, - MW/min Ramp Pole 3, 35 MW -> MW, - MW/min 35- GndRet P Ramp Pole 3, MW -> 35 MW, - MW/min -35 GndRet P Ramp Pole 3, 35 MW -> MW, - MW/min 35- GndRet P Ramp Pole 3, MW -> 35 MW, - MW/min -35 GndRet P3 3 35
5 Ramp Pole 3 (- MW), Pole constant, MW -> MW, - MW/min Ramp Pole 3 (- MW), Pole constant, MW -> MW, - MW/min Ramp Pole 3 (- MW), Pole constant,5 MW -> MW, - MW/min Ramp Pole 3 (- MW), Pole constant, MW -> 5 MW, - MW/min Harmonic Performance and Filter Control, - MW, (in parallel to tests 6. and 6.) Harmonic Performance and Filter Control, - MW, (in parallel to tests 6.38and 6.39) Harmonic Performance and Filter Control, - MW, (in parallel to tests 6.8 and 6.9) Harmonic Performance and Filter Control, - MW, (in parallel to tests 6.6 and 6.7) Harmonic Performance and Filter Control, - MW, (in parallel to tests 6. and 6.3) Level on Pole under Test Direction GndRet P3 Test (hrs) Harmonic Performance and Filter Control, - MW, (in parallel to tests 6. and 6.5) - GndRet P Run-back Functional Test, MW, Modify dynamic Plim calculation for TOV cases in northflow in the controls, (P_max, P_Line, P_Special, Low_/High_Demand, Stages), (deltap= 3 MW) Run-back Functional Test, MW, Modify dynamic Plim calculation for TOV cases in southflow in the controls, (P_max, P_Line, P_Special, Low_/High_Demand, Stages), (deltap= MW) Reduced Voltage, 6 MW, Pole 3 + Pole, Udc_ref (operator), start and stop Ud ramp Automatic Filter switch over, MW, Benmore, Rectifier 56. Automatic Filter switch over, MW, Haywards, Inverter 9 9. Steady State Performance Pole 3, MW, GndRet P3 9.9 Steady State Performance Pole 3, MW, GndRet P Pd Step Response, MW, Pd=->.6-> p.u, (Step on both poles for AC system verification, interim phase) 3.7 Thermal model verification test, MW, cable P3, (Injection of delta I_dc measurement from cable transitition station) Thermal model verification test, MW, cable P3, (shift load to P3 until overload with cable is reached (approx. 5 MW)) Thermal model verification test, MW, cable P, (Injection of delta I_dc measurement from cable transitition station) Thermal model verification test, MW, cable P, (shift load to P until overload with cable is reached (approx. 5 MW)) 6.3 Audible Noise, MW GndRet P System Losses (P3: - MW), MW -> 67 MW, (No-load and load losses at.,.6,. p.u.) Spinning reserve sharing, MW, Bipolar operation, delta f at HAY, [compare with 9.3], Inverter Spinning reserve sharing, MW, Bipolar operation, delta f at HAY, [compare with 9.], Rectifier
6 Level on Pole under Test Direction Test (hrs) Runbacks (by thermal limits), MW, northflow, Bipolar operation, (AC lines to be specified) Runbacks (by thermal limits), MW, southflow, Bipolar operation, (AC lines to be specified) Runbacks (by thermal limits), MW, northflow, Monopolar operation, (AC lines to be specified) GndRet P Runbacks (by thermal limits), 666 MW, southflow, Monopolar operation, (AC lines to be specified) 666 GndRet P Bipolar Operation, MW, Pole trip, takeover Pole Single Commutation Failure Inverter, MW, Pole 3, [prior to 6.] System Ride through test in North Island, MW, Inverter GndRet P3 6.3 System Ride through test in South Island, MW, Rectifier GndRet P3 6. Line faults, MW,existing Pole, mix of HAY/ BEN Line, several locations, kv, 6.35 Line faults, MW,existing Pole 3, mix of HAY/ BEN Line, several locations, kv, 3. Heat Run P3, 73 MW, ( P3:.p.u. for hours, P: 3 MW) Maximum Transfer Capability, 55 MW -> 3 MW, ( P3: max. overload, P: 5 - >3 MW 55- for 3 mins), w/o redundant cooling HAY ph AC Fault, %, ms, MW, Trip HAY-LTN kv circuit, Inverter 6.6 BEN ph AC Fault, %, ms, MW, Trip BEN-OHC kv circuit, Rectifier 6.69 Trip largest HAY condenser, MW, Inverter 6.7 Trip largest HAY condenser, MW Notes Level relates to the Pole under test. direction relates to the overall direction HV Configuration: GndRet P3 = Monopole Pole 3, GndRet P = Monopole Pole, or 3 a range indicates a ramping test (From - To) B-> H= North Transfer, = South Transfer, n/a= direction not important or whatever is naturally scheduled Some early tests in are with Pole 3 energised but no transfer across Pole 3 Mid-point Test in hours. Mid Point estimate - test durations may vary from this. Please note some tests will be done concurrently 5 Min transfer tolerance across HV for test (negative denotes south transfer). Max capability = N/S although system limits will determine the actual South transfer max 6 Max transfer tolerance across HV for test (negative denotes south transfer)
PROPOSAL FOR STORAGE CONNECTION REQUIREMENTS
PROPOSAL FOR STORAGE CONNECTION REQUIREMENTS Public consultation 15 March 23 April 2018 Contents 1 Introduction and background... 2 2 Definitions and applicability... 2 3 SPM categories types... 3 4 SPM
More informationCIGRE US National Committee 2013 Grid of the Future Symposium. Facilitating Bulk Wind Power Integration Using LCC HVDC
CIGRE US National Committee 2013 Grid of the Future Symposium Facilitating Bulk Wind Power Integration Using LCC HVDC Introduction Many states in US need to meet their renewable energy mandate Wind energy
More informationDRAFT PROPOSAL FOR STORAGE CONNECTION REQUIREMENTS
DRAFT PROPOSAL FOR STORAGE CONNECTION REQUIREMENTS January 2018 Contents 1 Introduction and background... 2 2 Definitions and applicability... 2 3 SPM categories types... 3 4 SPM Type A... 4 4.1 Frequency
More informationCascading Fault in AC/DC Hybrid Power Grid Xinzhou Dong
Cascading Fault in AC/DC Hybrid Power Grid Xinzhou Dong Tsinghua University, Beijing, China 30 th March, San Francissico, USA 1 2 3 4 5 Background Cascading Fault in AC/DC Hybrid Grid Model and Simulation
More informationResearch on Transient Stability of Large Scale Onshore Wind Power Transmission via LCC HVDC
Research on Transient Stability of Large Scale Onshore Wind Power Transmission via LCC HVDC Rong Cai, Mats Andersson, Hailian Xie Corporate Research, Power and Control ABB (China) Ltd. Beijing, China rong.cai@cn.abb.com,
More informationExperience on Technical Solutions for Grid Integration of Offshore Windfarms
Experience on Technical Solutions for Grid Integration of Offshore Windfarms Liangzhong Yao Programme Manager AREVA T&D Technology Centre 18 June 2007, DTI Conference Centre, London Agenda The 90MW Barrow
More informationTechnical Data Sheets
GE Consumer & Industrial Power Protection Technical Data Sheets Digital Energy Uninterruptible Power Supply SitePro 150 200 250 300 kva 400 VAC CE Series 6 Manufactured by: GE Digital Energy General Electric
More informationDate Issued: 10 August 2009 Status: ISSUED Review Date: 10 August 2011 Ref: NS5.3 DISTRIBUTED GENERATION TECHNICAL REQUIREMENTS TABLE OF CONTENTS
Date Issued: 10 August 2009 Status: ISSUED Review Date: 10 August 2011 Ref: NS5.3 DISTRIBUTED GENERATION TECHNICAL REQUIREMENTS TABLE OF CONTENTS 1. PURPOSE AND SCOPE OF THIS DOCUMENT... 3 2. DEFINITIONS...
More informationTechnical Data Sheets
GE Consumer & Industrial Power Protection Technical Data Sheets Digital Energy Uninterruptible Power Supply SitePro 400 & 500 kva 400 VAC CE Series 6 Manufactured by: GE Digital Energy General Electric
More informationSouthern Company Interconnection Process. Dexter Lewis Research Engineer Research and Technology Management
Southern Company Interconnection Process Dexter Lewis Research Engineer Research and Technology Management Southern Company Outline Southern Company GPC Solar Interconnection Process Application requirements
More informationPQC - STATCON The ultra fast Power Quality Compensator
PQC - STATCON The ultra fast Power Quality Compensator PQC - STATCON The ultra fast power quality compensator PQC - STATCON is based on IGBT voltage source inverter technology. It is a shunt connected
More informationRefurbishment and Life Extension of Existing Facilities in Vermont
Refurbishment and Life Extension of Existing Facilities in Vermont Prepared by Joshua Burroughs, Joanne Hu & Jeff Carrara 2015 Grid of Future Symposium Life Extension Projects in Vermont Highgate Converter
More informationTechnical Data Sheet. Uninterruptible Power Supply. Critical Power. imagination at work
Technical Data Sheet Uninterruptible Power Supply SGSE_010-040_S1_UPS_GE_01 GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino (Locarno) Switzerland T +41 (0)91 / 850 51 51 F +41 (0)91
More informationThe Application of Power Electronics to the Alberta Grid
The Application of Power Electronics to the Alberta Grid Peter Kuffel, Michael Paradis ATCO Electric APIC May 5, 2016 Power Electronics Semiconductor devices used in power transmission systems Types: Thyristor
More informationEst DCM Double Conversion Module 400kVA - 800kVA
Est.1968 DCM Double Conversion Module 400kVA - 800kVA The parallel operation of converters for increased output power or redundancy is commonplace but poses problems for large systems. A new approach is
More informationInterconnection Feasibility Study Report GIP-222-FEAS-R3
Interconnection Feasibility Study Report GIP-222-FEAS-R3 System Interconnection Request #222 48 MW Steam Generating Facility Pictou County (53N) 2010 07 30 Control Centre Operations Nova Scotia Power Inc.
More informationEFFEKTA Power Supplies
EFFEKTA GENERAL INFORMATION UPS topology ON LINE - Double Conversion Classification VFI-SS-111 in accordance with IEC 62040-3 Nominal output power (Cos Ø 0,9) - kva 10 15 20 30 40 Nominal output power
More informationQUEENSLAND URBAN UTILITIES
DOCUMENT NO : EQUIPMENT NO : PREPRED : CHECKED : PPROVED : SHEET NO : 1 of 6 GENERL 1 Battery Charger DCC Inverters 3 DCDC Converters 4 System Design Life (other than batteries) Years 5 Battery Design
More informationIntegration of Large Wind Farms into Electric Grids
Integration of Large Wind Farms into Electric Grids Dr Mohammad AlZoubi Introduction Development WHAT IS NEXT!! Over the next 12 years, Europe must build new power capacity equal to half the current total.
More informationSINAMICS SM150. 4/2 Overview. 4/2 Benefits. 4/2 Design. 4/6 Function. 4/8 Selection and ordering data. 4/8 Options
/2 Overview /2 Benefits /2 Design /6 Function /8 Selection and ordering data /8 Options Technical data /1 General technical data /15 Control properties /15 Ambient conditions /16 Installation conditions
More informationVariable frequency transformer for asynchronous power transfer
Variable frequency transformer for asynchronous power transfer by Einar Larsen, Richard Piwko and Donald McLaren, GE Energy A new power transmission technology has been developed. The variable frequency
More informationNEWFOUNDLAND AND LABRADOR HYDRO GULL ISLAND TO SOLDIERS POND HVDC INTERCONNECTION DC SYSTEM STUDIES VOLUME 1
Page 1 of 76 NEWFOUNDLAND AND LABRADOR HYDRO GULL ISLAND TO SOLDIERS POND HVDC INTERCONNECTION DC SYSTEM STUDIES VOLUME 1 Page 2 of 76 NEWFOUNDLAND AND LABRADOR HYDRO GULL ISLAND TO SOLDIERS POND HVDC
More informationTechnical Data Sheets
GE Consumer & Industrial Technical Data Sheets Digital Energy Uninterruptible Power Supply SG-CE Series 160 200 250 300 kva PurePulse TM 400 Vac CE Series 1 Date of issue: 15.02.2007 SGSE160-200S1UPS01
More informationTechnical Data Sheet. Uninterruptible Power Supply. Critical Power. imagination at work
Technical Data Sheet Uninterruptible Power Supply SGSE_400-500_S3_UPS_01 GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino (Locarno) Switzerland T +41 (0)91 / 850 51 51 F +41 (0)91
More informationNERC Load Modeling Activities. Ryan D. Quint, PhD, PE Senior Engineer, System Analysis, NERC MRO Fall Reliability Conference November 2016
NERC Load Modeling Activities Ryan D. Quint, PhD, PE Senior Engineer, System Analysis, NERC MRO Fall Reliability Conference November 2016 Introduction Kickoff January 2016 LMTF webpage Chair: Dmitry Kosterev,
More informationInterconnection Feasibility Study Report GIP-226-FEAS-R3
Interconnection Feasibility Study Report GIP-226-FEAS-R3 System Interconnection Request #226 70 MW Wind Generating Facility Kings County (L-6013) 2010 07 21 Control Centre Operations Nova Scotia Power
More informationFAULT ANALYSIS OF AN ISLANDED MICRO-GRID WITH DOUBLY FED INDUCTION GENERATOR BASED WIND TURBINE
FAULT ANALYSIS OF AN ISLANDED MICRO-GRID WITH DOUBLY FED INDUCTION GENERATOR BASED WIND TURBINE Yunqi WANG, B.T. PHUNG, Jayashri RAVISHANKAR School of Electrical Engineering and Telecommunications The
More informationWind Generators Evolving Technology
Wind Generators Evolving Technology Transmission Advisory Group Ray Brown Transmission Manager - Meridian Energy April 2008 Overview of Presentation 3 Different Wind Farms 3 Different Technologies Te Apiti
More information3. MAJOR SYSTEM COMPONENTS Emergency Lighting Power System shall consist of the following major subsystems:
TECHNICAL GUIDE SPECIFICATIONS Power-Lite Single Phase, (200 to 490 Watts) UL924 Central Lighting Inverter 1. SCOPE The Emergency Lighting Power System shall be a solid-state single phase unit designed
More informationTEST REPORT DIN V VDE V
Test Report issued under the responsibility of: TEST REORT DIN V VDE V 0126-1-1 Report Number....: EFSH16041203-IE-01-L12 Date of issue...: 2016-11-28 Total number of pages... 25 pages Testing Laboratory...
More informationLarge Scale Solar Integration
Large Scale Solar Integration Experiences and Coming Changes in Distributed Energy Resource Interconnections October 26 th, 2017 Overview Background on Xcel Energy Expansion of Solar in Minnesota Changes
More informationCHAPTER 5 FAULT AND HARMONIC ANALYSIS USING PV ARRAY BASED STATCOM
106 CHAPTER 5 FAULT AND HARMONIC ANALYSIS USING PV ARRAY BASED STATCOM 5.1 INTRODUCTION Inherent characteristics of renewable energy resources cause technical issues not encountered with conventional thermal,
More informationCIGRÉ SC B1 International Colloquium on H.V. Insulated Cables Oct 2017, New Delhi, India
CIGRÉ SC B1 International Colloquium on H.V. Insulated Cables Oct 2017, New Delhi, India Cable Overvoltage for MMC based VSC HVDC System: Interaction with Converters S. MUKHERJEE, M SALTZER, Y.-J. HÄFNER,
More informationWorkshop on Grid Integration of Variable Renewable Energy: Part 1
Workshop on Grid Integration of Variable Renewable Energy: Part 1 System Impact Studies March 13, 2018 Agenda Introduction Methodology Introduction to Generators 2 Introduction All new generators have
More informationElectrical grid stability with high wind energy penetration
ECOWAS Regional Workshop on WIND ENERGY Praia, Cape Verde. November 4 5, 2013 Electrical grid stability with high wind energy penetration Fernando CASTELLANO HERNÁNDEZ Head of Wind Energy Section Renewable
More informationMerchant Transmission Interconnection PJM Impact Study Report. PJM Merchant Transmission Request Queue Position X3-028.
Merchant Transmission Interconnection PJM Impact Study Report For PJM Merchant Transmission Request Queue Position X3-028 Breed 345 kv October/2014 System Impact Study Breed 345 kv Merchant Transmission
More informationStandards, Procedures and Policies for Grid Connection
Standards, Procedures and Policies for Grid Connection CONTENTS 1 INTRODUCTION 1 2 EMBEDDED GENERATION 1 2.1.1 OUTLINE OF EMBEDDED GENERATION 1 2.1.2 CHANGES IN EMBEDDED GENERATION 1 2.1.3 ASPECTS OF EMBEDDED
More informationDistributed Generation
Distributed Generation Presented by: Doug Fairchild & Chris Cooper 1 Agenda Hydro One Overview The state of DG in the Province of Ontario Technical Issues Operational Requirements Overview Control Room
More informationTechnical Data Sheet. Uninterruptible Power Supply. Critical Power. imagination at work
Technical Data Sheet Uninterruptible Power Supply TM SG Series 200-250 - 300 PurePulse CE S3 TM SG Series 160 PurePulse CE S3 GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino (Locarno)
More informationEPRI HVDC Research. Gary Sibilant, EPRI. August 30, 2011
EPRI HVDC Research John Chan, Ram Adapa, Bernie Clairmont & Gary Sibilant, EPRI EPRI HVDC & FACTS Conference August 30, 2011 Presentation Contents 1. Team Members 2. Research Program Objective & Scope
More informationPresentation Soft starters 0 Altistart 48 soft start - soft stop units
Presentation Soft starters 5 6 7 65_Ver.-EN.fm/ Presentation (continued) Soft starters Applications The Altistart 8 soft start - soft stop unit is a controller with 6 thyristors which is used for the torque-controlled
More informationSmartOnline SUT Series 3-Phase 208/120V 220/127V 30kVA 30kW On-Line Double- Conversion UPS, Tower, Extended Run, SNMP Option
SmartOnline SUT Series 3-Phase 208/120V 220/127V 30kVA 30kW On-Line Double- Conversion UPS, Tower, Extended Run, SNMP Option MODEL NUMBER: SUT30K Highlights On-line double-conversion topology, VFI operation
More informationMidway/Monument Area TTC Study
Midway/Monument Area TTC Study (includes the following lines: Midway Geesen 115 kv, Geesen Falcon 115 kv, Falcon Fuller 115 kv, Fuller Black Squirrel 115 kv, and Black Squirrel Monument 115 kv) Johnny
More informationPower Conversion System for ESS 100 kw to 30 MW Bi-directional Inverters
Power Conversion System for ESS 100 kw to 30 MW Bi-directional Inverters Energy Storage Solutions Power Conversion Systems With more than 125 years experience in power engineering and over a decade of
More informationMachine, Panel, and Plant Level Solutions
Machine, Panel, and Plant Level Solutions Mark Stephens, PE Manager Industrial Studies Electric Power Research Institute 942 Corridor Park Blvd Knoxville, Tennessee 37932 Phone 865.218.8022 mstephens@epri.com
More informationTargeted Application of STATCOM Technology in the Distribution Zone
Targeted Application of STATCOM Technology in the Distribution Zone Christopher J. Lee Senior Power Controls Design Engineer Electrical Distribution Division Mitsubishi Electric Power Products Electric
More informationRental Power QSB7 series engine
Specification sheet Rental Power QSB7 series engine 150 kva 200 kva 50 Hz 135 kw 180 kw 60 Hz Description This Cummins commercial generator set is a fully integrated power generation system, providing
More informationTEST REPORT DIN V VDE V
Test Report issued under the responsibility of: TEST REORT DIN V VDE V 0126-1-1 Report Number....: EFSH16041203-IE-01-L21 Date of issue...: 2016-11-28 Total number of pages... 26 pages Testing Laboratory...
More informationEaton 93PS 8-40kW UPS Technical Specification Manufacturer s declaration in accordance with IEC
Manufacturer s declaration in accordance with 8- Frame Model catalogue reference 93PS-XX(20)-YY- 93PS-XX(40)-YY- Number of power modules (UPM) 1 1 or 2 Number of internal batteries 0 to 2 x 32 blocks 0
More informationPID 274 Feasibility Study Report 13.7 MW Distribution Inter-Connection Buras Substation
PID 274 Feasibility Study Report 13.7 MW Distribution Inter-Connection Buras Substation Prepared by: Entergy Services, Inc. T & D Planning L-ENT-17A 639 Loyola Avenue New Orleans, LA 70113 Rev Issue Date
More informationEssential Reliability Services Engineering the Changing Grid
Essential Reliability Services Engineering the Changing Grid Robert W. Cummings Senior Director Engineering and Reliability Initiatives i-pcgrid March 39, 2016 Change is Coming Characteristics and behavior
More informationJemena Electricity Networks (Vic) Ltd
Jemena Electricity Networks (Vic) Ltd Embedded Generation - Technical Access Standards Embedded Generation - 5 MW or Greater ELE SP 0003 Public 1 October 2014 TABLE OF CONTENTS TABLE OF CONTENTS Abbreviations...
More informationPJM Generator Interconnection Request Queue #R60 Robison Park-Convoy 345kV Impact Study September 2008
PJM enerator Interconnection Request Queue #R60 Robison Park-Convoy 345kV Impact Study 504744 September 2008 PJM Interconnection 2008. All rights reserved R60 Robison Park-Convoy 345kV Impact Study eneral
More informationRental Power QSL9 series engine
Specification sheet Rental Power QSL9 series engine 250 kva - 300 kva 50 Hz 225 kw - 275 kw 60 Hz Description This Cummins commercial generator set is a fully integrated power generation system, providing
More informationSmartOnline SUT Series 3-Phase 208/120V 220/127V 20kVA 20kW On-Line Double- Conversion UPS, Tower, Extended Run, SNMP Option
SmartOnline SUT Series 3-Phase 208/120V 220/127V 20kVA 20kW On-Line Double- Conversion UPS, Tower, Extended Run, SNMP Option MODEL NUMBER: SUT20K Highlights On-line double-conversion topology, VFI operation
More informationE-15 Uninterruptible Power Systems (UPS)
Guideline No.E-15 (201510) E-15 Uninterruptible Power Systems (UPS) Issued date:20 October, 2015 China Classification Society Foreword This Guide is a part of CCS Rules, which contains technical requirements,
More informationVFD Best Practices: Getting the Most from Your VFD Investment
TECH TOPICS VFD Best Practices: Getting the Most from Your VFD Investment The purpose of this document is to outline best practices for successful application and installation of VFDs. Following these
More informationHawai'i Island Planning and Operations MEASURES TO IMPROVE RELIABILITY WITH HIGH DER
1 Hawai'i Island Planning and Operations MEASURES TO IMPROVE RELIABILITY WITH HIGH DER Lisa Dangelmaier Hawaii Electric Light lisa.dangelmaier@hawaiielectriclight.com Hawai'i Electric Light System Overview
More informationDiesel generator set QSK78 series engine
Specification sheet Diesel generator set QSK78 series engine 1950 kw - 2500 kw Description Cummins commercial generator sets are fully integrated power generation systems providing optimum performance,
More informationCIS-IEEE 2017 Conference Renewable Energy Session Renewable Energy s Impact of Power Systems
CIS-IEEE 2017 Conference Renewable Energy Session Renewable Energy s Impact of Power Systems Ben Huckaba, P.E. President & Principal Engineer 317-273-9841 benh@alphaeng.us Indiana University Bloomington,
More information10 20KVA 3Ph/1Ph KVA 3Ph / 3Ph
VEGA INDUSTRIAL UNINTERRUPTIBLE POWER SUPPLY 10 20KVA 3Ph/1Ph 10 120KVA 3Ph / 3Ph - 6 pulse SCR rectifier - IGBT inverter - Power output transformer - Low and stable ripple on battery for the highest battery
More informationThree Phase UPS Systems Range: 10 to 500kVA
Three Phase UPS Systems Range: 10 to 500kVA Three Phase UPS Systems Hitachi Hi-Rel Power Electronics Pvt. Ltd. is in the business of Industrial UPS Systems since 1987 and has rich experience in supplying
More informationSurabaya Seminar Ferdinand Sibarani, Surabaya, 30 th October Power Quality
Surabaya Seminar 2014 Ferdinand Sibarani, Surabaya, 30 th October 2014 Power Quality Content 1. Power quality problems 2. ABB s low voltage (LV) solution PCS100 AVC (Active Voltage Conditioner) PCS100
More informationUCDI274J - Technical Data Sheet
UCDI274J - Technical Data Sheet UCDI274J SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards
More informationDiesel generator set 6BT5.9 series engine
Specification sheet Diesel generator set 6BT5.9 series engine 85 kw - 100 kw Standby Description Cummins commercial generator sets are fully integrated power generation systems providing optimum performance,
More informationTECHNICAL DATA SHEET INFINITY kva 3Ph(in) 3Ph(out)
TECHNICAL DATA SHEET INFINITY 3300 10 15 20 kva 3Ph(in) 3Ph(out) GENERAL INFORMATION POWER - kva 10 15 20 UPS typology ON LINE Double conversion ACTIVE stand by-operation (Optional) Nominal output power
More informationUCI274H - Technical Data Sheet
UCI274H - Technical Data Sheet UCI274H SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards
More informationIslanding of 24-bus IEEE Reliability Test System
Islanding of 24-bus IEEE Reliability Test System Paul Trodden February 14, 211 List of Figures 1 24-bus IEEE RTS, with line (3,24) tripped and buses 3,24 and line (3,9) uncertain....................................
More informationSEL Microgrid Lessons Learned
SEL Microgrid Lessons Learned Will Edwards (SEL Engineering Services Division) Copyright SEL 2016 Essential Keys to Successful Microgrid Projects? Comprehensive HIL testing Subcycle fast controls Adaptive
More informationPowerValue 11/31 T kva
Technical Datasheet PowerValue 11/31 T 10-20 kva Classification IEC/EN 62040-3 VFI-SS-111 Working mode on-line double conversion Power rating 10-20 kva Paralleling up to 4 units (up to 80 kva) Output power
More informationPOWER kva
+44 (0)20 8868 3732 TECHNICAL DATA SHEET B9600 400-800kVA GENERAL INFORMATION UPS Type ON LINE - Doppia Conversione Nominal output power (Cos φ0,8) kva 400 500 600 800 Nominal output power (Cos φ1,0) kw
More informationPOWER SESSION. DP3 Class Power System Solutions for Dynamically Positioned Vessels
Return to Session Menu DYNAMIC POSITIONING CONFERENCE October 9-10, 2012 POWER SESSION DP3 Class Power System Solutions for Dynamically Positioned Vessels Stig Settemsdal and Damir Radan Integrated Systems
More informationGENERAL SPECIFICATION ELECTRICAL
GENERAL SPECIFICATION ELECTRICAL GS ELE 152 AC Uninterruptible Power Systems (UPS) 02 09/03 Change of Group name and logo 01 10/02 Updated 00 03/01 First issue Rev. Date Notes GS ELE 152.doc Contents 1.
More informationHVDC Back-to-Back Interconnections Enabling reliable integration of power system
HVDC Back-to-Back Interconnections Enabling reliable integration of power system Dr Liliana Oprea FICHTNER GmbH&Co KG Swiss Chapter of IEEE PES Baden-Dättwil, 4 September 2013 Table of Contents Need for
More informationIslanding of 24-bus IEEE Reliability Test System
Islanding of 24-bus IEEE Reliability Test System Paul Trodden February 17, 211 List of Figures 1 24-bus IEEE RTS, with line (3,24) tripped and buses 3,24 and line (3,9) uncertain....................................
More informationFull-Scale Medium-Voltage Converters for Wind Power Generators up to 7 MVA
Full-Scale Medium-Voltage Converters for Wind Power Generators up to 7 MVA Philippe Maibach, Alexander Faulstich, Markus Eichler, Stephen Dewar ABB Switzerland Ltd CH-5300 Turgi, Switzerland Phone: +41
More informationEE 742 Chap. 7: Wind Power Generation. Y. Baghzouz Fall 2011
EE 742 Chap. 7: Wind Power Generation Y. Baghzouz Fall 2011 Overview Environmental pressures have led many countries to set ambitious goals of renewable energy generation. Wind energy is the dominant renewable
More informationPractical Variable Speed Drives and Power Electronics
Practical Variable Speed Drives and Power Electronics Malcolm Barnes CPEng, BSc(ElecEng), MSEE, Automated Control Systems, Perth, Australia AMSTERDAM BOSTON HEIDELBERG LONDON. NEW YORK OXFORD PARIS SAN
More informationTECHNICAL SPECIFICATION FOR INDEPENDENT POWER PRODUCERS. NB Power Customer Service and Distribution. June 2008
NB Power Customer Service and Distribution June 2008 Prepared by: Steven Wilcox Revised by: Steven Wilcox TABLE OF CONTENTS 1.0 Introduction 4 2.0 NB Power Policy on Independent Power Production 4 3.0
More informationSPECIFICATIONS UPS Triple Output 13.6VDC/213W, 48VDC/153W, 48VDC/39W
Page 1 / 7 Full operation without need of battery Two independent 48Vdc outputs for switching and control Local monitoring with 8 LEDs Remote monitoring with 4 alarm relays Monitoring and configuration
More informationUNIT 6: BATTERIES, UPS AND CABLES
UNIT 6: BATTERIES, UPS AND CABLES 6.1 Batteries 6.1.1 Introduction i. Definition of Batteries: Stores chemical energy in cells and converts them into electrical energy in the form of direct current (D.C);
More informationTechnical Data Sheets
GE Digital Energy Power Quality Technical Data Sheets Digital Energy Uninterruptible Power Supply SG-CE Series 60 80 100 120 kva PurePulse 400 Vac CE Series 1 SG-CE Series 100-120 kva PurePulse SG-CE Series
More informationSmartOnline SVTX Series 3-Phase 380/400/415V 20kVA 18kW On-Line Double-Conversion UPS, Tower, Extended Run, SNMP Option
SmartOnline SVTX Series 3-Phase 380/400/415V 20kVA 18kW On-Line Double-Conversion UPS, Tower, Extended Run, SNMP Option MODEL NUMBER: SVT20KX Highlights On-line double-conversion topology, VFI operation
More informationApplication Note CTAN #127
Application Note CTAN #127 Guidelines and Considerations for Common Bus Connection of AC Drives An important advantage of AC drives with a fixed DC is the ability to connect the es together so that energy
More informationFacilities Study for Alberta to US Available Transfer Capability
Facilities Study for Alberta to US Available Transfer Capability Report No: NPP2002-05 June 3, 2002 System Planning & Grid Operations, Transmission Line of Business Engineering Services Executive Summary
More informationTechnical Data Sheet. Uninterruptible Power Supply. Critical Power. imagination at work
Technical Data Sheet Uninterruptible Power Supply TLES_040-120_S1_UPS_GE_Floor_01 GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino (Locarno) Switzerland T +41 (0)91 / 850 51 51 F +41
More informationDistributed Energy Resources
Distributed Energy Resources WECC Data Subcommittee Rich Hydzik, Avista (ERSWG/DER Subgroup Lead) June 29, 2018 Why Are We Concerned About DER? Concern about changing generation fleet Large coal fired
More informationGRID INTERCONNECTION AND PERFORMANCE TESTING PROCEDURES FOR VEHICLE- TO-GRID (V2G) POWER ELECTRONICS
GRID INTERCONNECTION AND PERFORMANCE TESTING PROCEDURES FOR VEHICLE- TO-GRID (V2G) POWER ELECTRONICS William Kramer Sudipta Chakraborty Benjamin Kroposki Andy Hoke Greg Martin Tony Markel National Renewable
More informationTechnical data sheet VH UL. Digital Energy Uninterruptible Power Supply. GE Digital Energy Power Quality
GE Digital Energy Power Quality Technical data sheet Digital Energy Uninterruptible Power Supply VH700-1000 - 1500 2000 UL A product by: GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino
More informationSwitchgear and Distribution Systems for Engineers and Technicians
Switchgear and Distribution Systems for Engineers and Technicians WHAT YOU WILL LEARN: How to identify typical characteristics of an industrial distribution system Become familiar with the main components
More informationPOWER GRIDS GRID INTEGRATION. EssPro - Battery energy storage The power to control energy
POWER GRIDS GRID INTEGRATION EssPro - Battery energy storage The power to control energy Challenges of the future power grid Long-term drivers for energy storage Electricity Consumption on the rise Electrification
More informationUCDI274K - Technical Data Sheet
- Technical Data Sheet SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards such as BS5000,
More informationUnit Protection System for Pumped-Storage Power Stations
Unit Protection System for Pumped-Storage Power Stations 1. Introduction In many power systems, pumped-storage power stations are used in addition to run-of-river power stations. These power stations serve
More informationUCI274D - Technical Data Sheet
UCI274D - Technical Data Sheet UCI274D SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards
More informationUCI274D - Technical Data Sheet
- Technical Data Sheet SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards such as BS000,
More informationUCI274G - Technical Data Sheet
- Technical Data Sheet SPECIFICATIONS & OPTIONS STANDARDS Newage Stamford industrial generators meet the requirements of BS EN 60034 and the relevant section of other international standards such as BS000,
More informationMarketing Management Team of Europe
Emerson Network Power Liebert NXe UPS GUIDE SPECIFICATIONS For a 10 to 20 kva (50 or 60Hz) Parallelable Digital Uninterruptible Power Supply (UPS) System - 1 - Contents 1.1 SUMMARY... 3 1.2 STANDARDS...
More informationTECHNICAL DATA SHEET KVA UPS Systemss
Återförsäljare: Tre Röda AB TillingeHagby 7-745 94 ENKÖPING Tel: 08-560 200 22 e-post: info@treroda.nu http: www.treroda.nu When the INSIDE is important make the OUTSIDE Cannon TECHNICAL DATA SHEET 400-500-600-800
More informationDC POWER SUPPLY SYSTEMS
DC POWER SUPPLY SYSTEMS double branch Rectifier - SCR type TITANIUM 2R-SCR PLUS SERIES TITANIUM 2R-SCR rectifier series belongs to the Double Branch category thus provided with two independent AC / DC
More informationTechnical Data Sheet. Uninterruptible Power Supply. Critical Power. imagination at work
Technical Data Sheet Uninterruptible Power Supply TM SG Series 100 &120 PurePulse TM SG Series 60 & 80 PurePulse SGSE_060-120_S1_UPS_GE_01 GE Consumer & Industrial SA General Electric Company CH 6595 Riazzino
More information