KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona 12-15 May 2003 1 ACCURATE MODELING FOR LOSSES REDUCTION USING A REAL-TIME POWER FLOW AT ENELVEN.

Slides:

Advertisements

Similar presentations

Chapter 4 Transformer Connections

Advertisements

Chapter 12 Transformers. Chapter 12 Transformers.

Load Management System

Sistan & Balouchestan Electric Power Distribution Company

Distributed Intelligence Provides Self-Healing for the Grid

NETWORK ANALYSIS IN GIS ENVIRONMENT Uday Deshmukh North Delhi Power Limited.

 UK Power Networks. All rights reserved Distribution Network Visibility Low Carbon Networks Fund Tier 1 project UK Power Networks & PPA Energy Omer.

Frankfurt (Germany), 6-9 June 2011 Douglas Wilson Psymetrix Ltd, UK Douglas Wilson Psymetrix Ltd, UK D. Wilson – UK – Session 4 – Paper ID 0497 Connection.

ANALYTICS: BRINGING VALUE TO THE UTILITIES IN MITIGATING ENERGY LOSSES José-Manuel LOPEZ Istanbul, May 9, 2014.

On Load Tap Changing Transformer Paralleling Simulation and Control.

1 EE 306 TRANSFORMERS Instructor: Dr. Mahamed Shwehdi Done By: Ahmad Saleh Al-Owied.

Distribution Management System Implementation at Florida Power & Light

Per Unit Representation Load Flow Analysis Power System Stability Power Factor Improvement Ashfaq Hussain.

RiversidePublicUtilities.com Arts & Innovation RiversidePublicUtilities.com Challenges and Solutions for Large-Scale PV Integration on RPU’s Distribution.

Lecture 101 EEE 302 Electrical Networks II Dr. Keith E. Holbert Summer 2001.

1 ECE 3336 Introduction to Circuits & Electronics Set #16 Transformers Fall 2012, TUE&TH 4:00-5:30 pm Dr. Wanda Wosik.

Chapter 12 Three Phase Circuits

Power Factor Correction KW KVA KVAR. Reasons behind P.F corrections n Power Factor is the ratio between Power and Apparent Power n Motors.

Chapter 8 Inverters AC Power • Inverters • Power Conditioning Units • Inverter Features and Specifications.

Plant Utility System (TKK-2210)

Unit 29 Three-Phase Transformers. Objectives: Discuss the construction of three-phase transformers. Discuss the formation of a three-phase transformer.

Substations. Substations Chapter 4 Substations Major types of equipment found in most transmission and distribution substations with their purpose,

Transformer with open secondary.

Line and Phase Voltages for a Wye Circuit.

Universal college of engineering and technology  C.P.D. SUBJECT:- DC Machine & Transformer ELECTRICAL ENGG. DEPARTMENT.

4/21/2017 MicroSCADA Pro DMS 600 Matti Kärenlampi FISUB/Österbacka.

Book Reference : Pages To understand how electricity is distributed in the UK via the National Grid 2.To understand how transformers are used.

Tubas ELECTRICAL NETWORK STUDY Prepared by : Omar Abu-Omar Ahmad Nerat Sameed banifadel PRESENTATION TO: Dr.MAHER KHAMASH.

1.6 Real Single-Phase Transformer.

1 1. Power and RMS Values. 2 Instantaneous power p(t) flowing into the box Circuit in a box, two wires +−+− Circuit in a box, three wires +−+− +−+− Any.

1 Chapter 3 Harmonic Modeling of Networks Contributors: T. Ortmyer, C. Hatziadoniu, and P. Ribeiro Organized by Task Force on Harmonics Modeling & Simulation.

Barcelona– May 2003 CIRED’2003 Beta session 4a: Distributed Generation Controllability of DG helps managing Distribution Grids J. A. Peças Lopes

Prepared By :.  Introduction  Techniques Used  Case Study  Advantages  Application  Conclusion OUTLINE.

1 ECE 3336 Introduction to Circuits & Electronics Set #16 Transformers Fall 2011, TUE&TH 4-5:30 pm Dr. Wanda Wosik.

Author Vilcahuaman.Melendez Country PE Session V – Block 2 – Question 23 Barcelona May THREE-PHASE DISTRIBUTION POWER FLOW WITH A GEOGRAPHIC.

Frankfurt (Germany), 6-9 June 2011 Pyeongik Hwang School of Electrical Engineering Seoul National University Korea Hwang – Korea – RIF Session 4a – 0324.

CLEMSON UNIVERSITY DG CONFERENCE UPDATE ON THE CURRENT STATUS OF DG INTERCONNECTION PROTECTION WHAT IEEE 1547 DOESN’T TELL YOU ABOUT INTERCONNECTION PROTECTION.

Author name Country ID Session X – Block Y – Question Z Barcelona May Geographic information system (GIS) and their role in power utility.

IEEE PES General Meeting, Tampa FL June 24-28, Chapter 3 Harmonic Modeling of Networks Contributors: T. Ortmyer, C. Hatziadoniu, and P. Ribeiro.

1 Distribution Networks For Large Cities: EPRI Research on Modelling and Analysis Roger DUGAN Sr. Technical Executive Electric Power Research Inst. US.

Modeling of Power Transformers A Static Device. Transformers The transformer enables us to utilize different voltage levels across the system for the.

Power Quality Impacts of Distributed Generation Roger C. Dugan Sr. Consultant Electrotek Concepts, Inc. Tennessee Tech. February 9, 2004.

Distribution Efficiency Initiative: Calculator Review April 29, 2008 Regional Technical Forum.

Nelson Kagan BR Session 4 – Block 3 – Planning – Paper #66 Barcelona May Technical Assessment for the Installation of Dispersed Generation.

Chapter 2 Transformers Edit by Chi-Shan Yu Electric Machinery.

Three Phase Circuits Tuesday, September 13 th, 2005.

Lecture 11Electro Mechanical System1 Delta-Delta Connection  Three single-phase transformers connected delta-delta  H 1 terminal of each transformer.

Lecture II Objective: Representation of sequence components

Zhumei MIAO China Session 3 – Block 1.4 – Question Z Barcelona May DEVELOPMENT AND APPLICATION OF THE REACTIVE POWER & VOLTAGE REAL TIME MONITORING.

Transformer Current & Voltage Practice

EFFECTS OF VOLTAGE IMBALANCE ON 3-PHASE INDUCTION MOTORS DESIGN TEAM 3.

Hao Zhu Dept. of Electrical & Computer Engineering University of Illinois, Urbana-Champaign ECE 498HZ: Power Distribution System Analysis.

Grounded Wye-Delta Transformer Bank Backfeed Short-Circuit Currents W. H. Kersting & Wayne Carr Milsoft Utility Solutions.

Dr. Vidya Vankayala Director, Grid Modernization (604) Richard Guo

NEUTRAL CURRENT IS NOT ZERO

Power System Protective Relaying-Part Two

Advanced Meter School August 18-20, 2015 INSTRUMENT TRANSFORMER SIZING 2015 David L. Johnson.

CURRENT ® Smart Grid Overview July SMART GRID = ENHANCED FUNCTIONALITY Smart Grid delivers more than advanced metering infrastructures: -safe.

ET 332b Ac Motors, Generators and Power Systems 1 Lesson 11_et332b.pptx.

SIE_Ilo_A1 Austria Session 3 – Block 2 Barcelona May 2003 SIEMENS 1 ON-LINE ESTIMATION AND LOCATION OF NON-TECHNICAL LOSSES IN A DISTRIBUTION SYSTEM.

Power Factor Correction The Definitive power solution

Automated power Factor Correction and Energy Monitoring System

Management Of Tulkarm Electrical Network

Distribution Feeder Voltage Regulation and Control

POWER SYSTEM ANALYSIS INTRODUCTION.

Φ 3. Transformer Models. Turns ratio 7200:240 (30 : 1)

Why does power factor matter Make-up of distribution capacitor banks

Tubas ELECTRICAL NETWORK STUDY

Prepared by: Ismael K. Saeed

Presentation transcript:

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May ACCURATE MODELING FOR LOSSES REDUCTION USING A REAL-TIME POWER FLOW AT ENELVEN I. Roytelman, A. Ilo Siemens R. CESPEDES KEMA Consulting P. Parra, H. Socorro, L. Rodriguez, T. Romero ENELVEN

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Introduction  ENELVEN - utility company in Zulia State, Venezuela  600,000 users, 1,700 MW of power  300 feeders voltages range kV  ENELVEN goals - improve the distribution system operation efficiency  GIS based central data repository and Distribution Management System Implementation  Maintain the technical losses at a minimum level  Improve quality of service

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May DMS Main Components and Interfaces RTUs IEDs Database Distribution Management System External Systems A P I s User Interface Fault Location, Isolation and Service Restoration Fault Location, Isolation and Service Restoration Support Functions Crew Management Outage Management System Switching Order Management Distribution System Power Flow (DSPF) Trouble Call System D S O M (Tools + Methods) Historical Information System Distribution Automation ERP AM FM /GIS AM FM /GIS CIS SCADASCADA SCADASCADA

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Accurate Distribution Power Flow, Why?  Distribution Power Flow Needs for ENELVEN:  Monitoring the distribution feeder loading and voltages  Input for power losses calculations  Support of Volt-VAr Control with direct benefits  MODELING REQUIREMENTS  Multiphase rather than positive sequence only  Detailed transformer representation rather than lumped loads  Accuracy adequate for losses calculation (few percent of total load)

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Accurate Distribution Power Flow, Why? Enelven Specific Distribution System Characteristics:  Variety of transformer connections which need to be modeled accurately. Connection Type Total Number of Installed Transformer Banks Total Installed Power 1Single-phase, phase-ground35.84 %22.37 % 2 Single-phase, phase-phase44.03 %24.62 % 3 Wye – wye4.69 %21.75 % 4 Wye – delta6.07 %17.76 % 5 Open wye – open delta3.05 %4.50 % 6 Delta – Wye4.95 % 6.90 % 7 Delta – Delta0.96 % 1.42 % 8 Open delta – Open delta0.41 % 0.68 % Total % Connection Type Transformers Installed in ENELVEN/ENELCO

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Accurate Distribution Power Flow, Why? Example: the same transformer bank ( wye/delta) and (wye/wye) with similar load produces different primary side phase loadings and power losses. Primary side power flow for 100/167.5/100 kVA transformer Bank Connected in wye/delta and wye/wye with the same secondary side load PhaseP kW wye/delta P kW wye/wye Q kVAr wye/delta Q kVAr wye/wye S kVA wye/delta S kVA wye/wye Loading % wye/delta Loading % wye/wye A (ab) B (bc) C (ca) Total

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Accurate Distribution Power Flow, Why? Example (cont) : The same for 50/100/50 kVA transformer bank Loading % wye/wye PhaseP kW wye/delta P kW wye/wye Q kVAr wye/delta Q kVAr wye/wye S kVA wye/delta S kVA wye/wye Loading % wye/delta A (ab) B (bc) C (ca) Total

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May DSPF Input Data Load Modeling DRTPF Distribution Network Applications GIS Data Network elements geographical location Distribution System Operational Model (DSOM) Network Elements Electrical Parameters Line/transformer impedances, phases, taps, loads, capacitors SCADA Network description and topology Field equipment statuses, measurements Structure of Distribution System Operational Model Interaction

KEM_Cespedes_A1 Colombia Session 3 – Block 1 Barcelona May Conclusions  An accurate three-phase unbalanced power flow is required by ENELVEN to improve operation efficiency.  ENELVEN different distribution transformer connections combined with an strategic requirement of correct calculating of the power loss (a significant percent of the total load), makes the requirement for accurate DSPF.  Results obtained with the DRTPF are promising both in terms of performance and usefulness. DRTPF will become certainly of great interest for utilities with similar problems.