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Smart Grid Frequency Monitoring Architecture and Applications IEEE International Conference on Smart Energy Grid Engineering (SEGE’13) Speaker: Prof. M. M. Eissa This tutorial will be presented in SEG13 Conference "IEEE International Conference on Smart Energy Grid Engineering (SEGE’13) Held from 28-30 August, 2013 UOIT, Oshawa, Canada"

Smart grid and wide area monitoring

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Page 1: Smart grid and wide area monitoring

Smart Grid Frequency Monitoring Architecture

and Applications

IEEE International Conference on Smart Energy Grid Engineering (SEGE’13)

Speaker: Prof. M. M. Eissa

This tutorial will be presented in SEG13 Conference "IEEE International Conference on

Smart Energy Grid Engineering (SEGE’13)Held from 28-30 August, 2013

UOIT, Oshawa, Canada"

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• Prof. Moustafa Eissa• Project PI, Helwan University

• Dr. Mahmoud El-Mesalawy• IT Team Leader, Helwan

University

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Tutorial Outlines1- Wide Area Monitoring System (WAMS)

2- Egyptian Wide Area Monitoring System (EWAMS)3- EWAMS Architecture

3-1 EWAMS layout 3-2 FDR Deployment for EWAMS3-3 FDR design for EWAMS3-4 Communication Infrastructure for EWAMS3-5 HUHS Data management and Analysis

4- EWAMS (device installation and software)4-1 FDRs setup in power station4-2 Network configuration for FDRs devices4-3 Snapshots for FDR and Router installation process4-4 EWAMS Software Installation4-5 Logical structure of Egyptian WAMS

5- EWAMS Applications

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1-Wide Area Monitoring System (WAMS)

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Wide Area Monitoring System (WAMS) is an integral part of powersystem operation today.

WAMS Utilizing synchrophasor measurements enable themonitoring of power systems and provide critical information forunderstanding, forecasting, or even controlling the status of powergrid stability in real-time.

In recent years, more and more WAMSs have been built around theworld to meet the growing needs for all kinds of system-stability-related applications.

A wide-area Frequency Monitoring Network (FNET) utilizing afamily of PMU called FDR was developed by Virginia Tech inNorth America.

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Wide Area Monitoring System (WAMS)

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More than 80 FDRs are installed in the United States andabout 40 installed worldwide.

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Wide Area Monitoring System (WAMS)

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Egypt is one of the recognized nations in the WAMSsworld

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2- Egyptian Wide Area Monitoring System (EWAMS)

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EWAMS was constructed through our project “Smart GridFrequency Monitoring Network Architecture and Applications”by installing 10 FDRs in various power stations in EgyptianElectric power grid.

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Egyptian Wide Area Monitoring System (EWAMS)

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EWAMS is an Internet based wide area monitoring systemthat is constructed using 10 FDRs connected to the VT output in10 power stations distributed over the Egyptian power grid.

EWAFMS is a power grid situational awareness tool thatcollects real-time, Global Positioning System (GPS) time-stamped measurements with high precision at the transmissionlevel.

EWAMS made the synchronized frequency, voltage angle,and voltage magnitude observation of the entire Egyptian powergrid possible with reasonable cost for the first time.

The following figure shows the developed Internet-basedWAMS architecture for the Egyptian power grid.

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3- EWAMS Architecture

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The developed EWAMS architecture consists of four mainparts:

3-1 EWAMS layout

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3-2 FDR Deployment for EWAMS

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The locations of the 10 FDRs are decided to provide fullobservability of the Egyptian electric power grid for differentmonitoring and control applications.

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3-3 FDR design for EWAMS

Special design for Egyptian power grid

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Communication Infrastructure (Internet)

3-4 Communication Infrastructure for EWAMS

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3-5 HUHS for Data Management and Analysis

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Data Concentrator Server (DCS)o Collect data from FDRso Align the data by time stampso provide synchronized outputs for application software o Database Operation Service

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HUHS for Data Management and Analysis

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Real Time Application Server (RTAS)o Frequency monitoring applicationo Phase angle monitoring applicationo Event detectiono Event type diagnosiso Event locationo Oscillation trigger

Non-Real Time Application Server (NRTAS)o Event visualizationo Oscillation modal analysiso Web service

Data Storage Server (DSS)o Store all historical data

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EWAMS(device installation

and software

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Two levels for EWAMS installation

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4- EWAMS Device and Software Installation

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4-1 FDRs setup in power station

FDR Configuration

GPS antenna installation

3G router Configuration

FDR connection to

panel

Operation test

TCP/IP Configuration

GPS antenna is connected in the most suitable place.

Internet Connection Configuration

Connection to VT of 220kV / 57.73 V.

TX/RX Test

Five steps for installing FDR and Router in power station

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4-2 Network configuration for FDRs devices

FDR Transmission Protocol: TCP/IP

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FDR installation on 220kV/500kV Cairo Zone

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4-3 Snapshots for FDR and Router installation processWadi-Hof Installation (500kV/ 220kV Cairo Zone Grid)

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South-Cairo Installation (500kV/ 220kV Cairo Zone Grid) Snapshots for FDR and Router installation process

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220kV /500kV board FDR installation

Snapshots for FDR and Router installation process

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Part of the wiring connectionSnapshots for FDR and Router installation process

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Wiring Diagram layoutSnapshots for FDR and Router installation process

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EWAMS Architecture

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4-4 EWAMS Software Installation

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4-5 Logical structure of Egyptian WAMS

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Data Flow Paths and Application Hierarchy

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Data Flow Paths and Application Hierarchy

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EWAMS Server Application

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Snapshot from the EWAMS Database

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EWAMS Web DisplaySynchronized Frequency Measurements

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5- EWAMS Applications

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Online Visualization

Instability Detection

Event Identification

Real Time Applications

Event Location Estimation

Smart Load Shedding

Adaptive Dynamic Modeling

Non-Real Time

Applications

EWAMS Applications

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Application-1

• ON-line Visualization based diagnosis

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The team gratefully acknowledge funding and supportfrom National Telecom Regulatory Authority(NTRA), Egypt (http://www.ntra.gov.eg) toimplement the EWAMS architecture presented in thiswork. More details about project activities are given inwww.helwan-ntra.com.

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Acknowledgment

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Thank you for your attention

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