TRAINING.

An Overview of Electric Power System Reliability for Non-Electrical Professionals

Online /
Sep 20, 2021 /
Course Code: 0906-WEBM21

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  • Overview
  • Syllabus
  • Instructor

Overview

Please note, This instructor-led course has specific dates and times:
This course is scheduled for 1 day (2.5 Hours).
11am-1:30 pm Eastern

After participating in this course, you will be able to:

  • Be knowledgeable of electricity reliability matters, and how the transmission system reliability differ from electrical distribution system reliability, its rules and regulation as they apply to the North American power system and the reliability framework in North America
  • Interact more effectively with other work groups involved in electric power system transmission and distribution
  • Apply knowledge of codes and standards of electricity reliability in regulatory work related to the bulk power system in North America

Description
Electricity reliability of an integrated power system is a complex matter. After the largest blackout in North American History in 2003, both Canada and the US governments initiated an effort to strengthen the reliability framework of the North American grid. The course explains the fundamentals of electricity reliability of North American Power System. It describes step by step the North American interconnection of transmission system, what is bulk power system reliability, why blackout happens, what is the reason for the largest blackout in North American history and what are the rules to avoid a black out. The course also describes the North American reliability framework, the role of North American Reliability Corporation (NERC), and the reliability standards overview. The course also explains how the elements of reliability of an electric distribution system differ from integrated transmission system reliability. .

The course is intended to provide a clear understanding of the reliability of bulk power system in North America to both technical and non-technical professionals who, although qualified in their own disciplines, may not have exposure to the electricity reliability matters associated with an integrated power system. To that end, it is a course that can benefit a wide range of audience who are associated with power system related work in any capacity.

Course Outline:

  • Blackouts and Causes
  • Bulk Power System Reliability
  • Blackout in 2003

Who should attend?
The course is designed for individuals who are associated with power system related work but do not have direct power system background. For example, regulators, legal services, engineers from disciplines other than electrical engineering, as well as individuals involved in power systems transmission or distribution work, oil and gas industries professionals and electricity export/import market specialists will find this course to be useful.

More Information

Time: 11:00 AM - 1:30 PM Eastern Time


Please note: You can check other time zones here.

System Requirements

PC-based attendees
OS: Windows 7, 8, 10 or newer

Browser:
IE 11 or later, Edge 12 or later, Firefox 27 or later, Chrome 30 or later

Macintosh based attendees
OS: Mac OS X with MacOS 10.7 or later

Browser:
Safari 7+, Firefox 27+, Chrome 30+

iOS
OS: iOS 8 or newer

Android
OS: Android 4.0 or higher

Syllabus

Bulk Power System Reliability

  • Concept of electric reliability of a power system
  • Reliability of a Distribution system
  • Reliability of an integrated high voltage power system
  • North American interconnections
  • Bulk power system reliability

Blackouts and Causes

  • What is black out
  • Cascading and blackout
  • Geomagnetic disturbance
  • North American blackouts

Blackout in 2003

  • Blackout 2003 case study: How it happened, what are the impacts, what are the root causes, Task Force recommendations
  • Reliability Framework in North America
  • Reliability standards at a glance
  • Are the renewable generations reliable ?

Instructor

Amitabha Gangopadhyay, P Eng

Amitabha Gangopadhyay, M.Eng., P.Eng, is well recognized in the area of power system engineering, where he has made many contributions in a wide range of power system applications during the past 35 years.

Prior to pursuing higher studies in Canada, Amitabha has worked in the utility industry and with English Electric in India. In Canada, Amitabha has worked with Group Schneider, Global Thermoelectric, Fuel Cell Energy and SNC Lavalin in many areas of power system engineering. Currently, Amitabha works in the area of regulatory matters related to electric reliability of bulk power systems in North America.

His areas of interest are electrical transmission and distribution, protection and smart grid applications. Amitabha holds a Master's Degree from the Memorial University of Newfoundland. He has published a number of papers in international journals and conferences. Amitabha is a professional engineer in the province of Alberta.



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Fee & Credits

$187.5 + taxes

  • 0.25 Continuing Education Units (CEUs)
  • 2.5 Professional Development Hours (PDHs)
  • ECAA Annual Professional Development Points
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