Benefits
This practical course - Presents the essential elements in understanding reactive power, including the impact on blackouts of inadequate or poorly located reactive power
- Describes today’s interconnected North American transmission network with its bottlenecks and regional constraints
- Makes the case for dynamic reactive power control as an effective tool in minimizing the effects of transmission bottlenecks and regional constraints
- Describes the operation of power-electronic based shunt reactive power controllers
- Presents numerous case study examples of installations of SVCs, STATCOMs, and HVDC controllers
- Illustrates one utility’s perspective on effective reactive power and voltage control throughout their network
Topics
- Fundamental Concepts in Reactive Power
- The Nature of AC Power Systems
- Basic Design and Operation for Dynamic Reactive Power Controllers
- Additional SVC and STATCOM Details
- Case Studies of SVC and STATCOM Installations
- A Brief Look at Other Power Electronic Controllers
- Phases of Power System Engineering Studies for the Life Cycle of a Project
- HVDC and Reactive Power
- Voltage Source Converter Applications
- Utility Perspective on Dynamic Reactive Power Control
Audience
- Utility transmission and distribution engineers interested in the techniques available for dynamic reactive power control and voltage stabilization in electric power transmission systems
- Engineers employed by energy suppliers, power marketers, and regulatory agencies who desire a better understanding of reactive power/voltage interdependencies in electric power systems
- Electrical engineers who design, specify, utilize, or study the effects of power electronic-based (FACTS) controllers and HVDC links as applied on power systems
- Electrical engineers responsible for system operation and reactive power control in transmission and distribution systems, especially in a deregulated utility environment
Students should be familiar with the basic relationships in electric power systems and with concepts of real and reactive power. Previous exposure to power electronics is not required.
Earn PDH, LU, CEU
By participating in this course, you will earn 21 Professional Development Hours (PDH) and 2.1 Continuing Education Units (CEU). Learn more about PDH, LU, CEU and state licensing boards.
Instructors
Fernando L. Alvarado, Professor Emeritus, University of Wisconsin-Madison, Madison, Wisconsin
Michael Bahrman, Fellow Engineer, ABB, Inc., Raleigh, North Carolina
Douglas J. Mader, Director, IT Infrastructure, Energy Services, New Orleans, Louisianna
John J. Paserba, Product Line Manager, Mitsubishi Electric Power Products, Inc., Warrendale, Pennsylvania
Willis F. Long, Professor, University of Wisconsin-Madison, Madison, Wisconsin
General Information
Fee Covers Notebook and other course materials, break refreshments, lunches and certificate.
Cancellation Policy No-Penalty Cancellation To cancel your enrollment, you must notify us promptly. Please consider re-enrolling in a future course. You may enroll a substitute at any time before the course starts.
Accommodations We have reserved a block of sleeping rooms at the upgraded Signature Level ($89/single; $89/double) for course participants at the Riviera Hotel & Casino, 2901 Las Vegas Blvd. South, Las Vegas, NV A deposit equal to the room rate for one night is charged at time of booking. This deposit is refundable if the reservation is canceled 48 hours prior to scheduled arrival. Room block rates may not be available for Friday or Saturday night stays. To reserve a room, call 800-634-6753 or 702-794-9412 and indicate that you will be attending this course under group code UW-Madison. Room requests made later than November 16 will be subject to availability.
Course Location This course will be held at Riviera Hotel and Casino-Las Vegas, 2901 Las Vegas Blvd. South, Las Vegas, NV. 702-794-9412
Course Discount Team Discount $1595 each, if three or more people from the same organization enroll in the course. Save $300 per person.
Visitors' Bureau*
Course information is subject to change. |
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How to Reach Us
Call 800-462-0876 or 608-262-2061 and ask for:
Program Director Willis F. Long, P.E., Ph.D. (bio)*
Or email:
Willis F. Long, P.E., Ph.D. or
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