Abstract:
This guide is intended to complement IEEE Std 125-1988TM, providing application details and addressing the impact of plant and system features upon hydroelectric unit gov...Show MoreScope:This guide will be a complement to IEEE standard 125 by providing application details and the impact of plant and system features upon hydroelectric governing performance...Show More
Purpose:There is a heightened awareness within the electric utility industry of the importance in the effective application of governing systems for dynamic stability. The need e...Show More
Metadata
Abstract:
This guide is intended to complement IEEE Std 125-1988TM, providing application details and addressing the impact of plant and system features upon hydroelectric unit governing performance. It provides guidance for the design and application of hydroelectric turbine governing systems. There is a heightened awareness within the electric utility industry of the importance in the effective application of governing systems for dynamic stability. The need exists to provide guidance in the effective governing system application for a better understanding among users.
Scope:
This guide will be a complement to IEEE standard 125 by providing application details and the impact of plant and system features upon hydroelectric governing performance.
Purpose:
There is a heightened awareness within the electric utility industry of the importance in the effective application of governing systems for dynamic stability. The need exists to provide guidance in the effective governing system application for a better understanding among users. Present standards do no adequately address this need. This standard will provide the guidance for the design and application of hydroelectric turbine governing systems.
Date of Publication: 02 November 2004
Electronic ISBN:978-0-7381-4084-1
ICS Code: 27.140 - Hydraulic energy engineering
Persistent Link: https://ieeexplore.ieee.org/servlet/opac?punumber=9363
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Governance System ,
- Hydroelectric Generation ,
- Control System ,
- Operating System ,
- Operation Mode ,
- Changes In Speed ,
- Primary Control ,
- System Frequency ,
- Interconnected Systems ,
- Digital Control ,
- Manual Control ,
- Derivative Terms ,
- Hydraulic System ,
- Hydraulic Pressure ,
- Control Valve ,
- Reference Speed ,
- Speed Regulation ,
- Passage Of Water ,
- Over Speed ,
- Types Of Actuators ,
- Oil Pressure ,
- Nominal Pressure ,
- Output Units ,
- Electrical Load ,
- Integral Gain ,
- Automatic Control ,
- Water Flow ,
- Pressure Drop ,
- Feedforward Control ,
- Electric Power
- Author Keywords
- control ,
- governor ,
- governing system ,
- hydroelectric ,
- speed ,
- stability
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Governance System ,
- Hydroelectric Generation ,
- Control System ,
- Operating System ,
- Operation Mode ,
- Changes In Speed ,
- Primary Control ,
- System Frequency ,
- Interconnected Systems ,
- Digital Control ,
- Manual Control ,
- Derivative Terms ,
- Hydraulic System ,
- Hydraulic Pressure ,
- Control Valve ,
- Reference Speed ,
- Speed Regulation ,
- Passage Of Water ,
- Over Speed ,
- Types Of Actuators ,
- Oil Pressure ,
- Nominal Pressure ,
- Output Units ,
- Electrical Load ,
- Integral Gain ,
- Automatic Control ,
- Water Flow ,
- Pressure Drop ,
- Feedforward Control ,
- Electric Power
- Author Keywords
- control ,
- governor ,
- governing system ,
- hydroelectric ,
- speed ,
- stability