Energy Development & Power Generation
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Technical committeeTypeAcronymIEEE 2778-2020CommitteePublished year2020KeywordsDescription
This guide is primarily concerned with the grounding system design for photovoltaic solar power plants that are utility owned and/or utility scale (5 MW or greater). The focus of the guide is on differences in practices from substation grounding as provided in IEEE Std 80. This guide is not intended for the substations to interconnect the plant; however, if the substation is included within the plant, portions of this guide may be applicable. Similarly, this guide does not directly cover small scale solar power plants (such as rooftop type systems), substation grounding, or lightning protection.
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Technical committeeTypeAcronymIEEE 2760-2020CommitteePublished year2020Description
The collector system grounding for wind power plants (WPPs) is the primary concern of this guide. This guide is not intended for the WPP substation; however, since the substation is typically interconnected with the collector system, its design might affect or be affected by the collector system. With proper consideration, the methods described herein could be used in determining the impact of the collector system on substation safety and vice versa. Quantitative analysis of the effects of lightning surges is beyond the scope of this document. Similarly, this guide does not cover offshore wind power plants, battery energy storage facilities, solar power plants, or substation grounding.
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Technical committeeTypeAcronymIEEE 125CommitteePublished year1988Description
This recommended practice is intended to assist users with the preparation of procurement specifications for electric-hydraulic speed governors. Remarks: Superseded by IEEE Std 125-2007
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Technical committeeTypeAcronymIEEE 1249CommitteePublished year1996Description
The application, design concepts, and implementation of computer-based control systems for hydroelectric power plant automation is addressed. Functional capabilities, performance requirements, interface requirements, hardware considerations, and operator training are discussed. Recommendations for system testing and acceptance are provided, and case studies of actual computer-based control applications are presented.
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Technical committeeTypeAcronymIEEE 1207CommitteePublished year2004Description
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.
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Technical committeeTypeAcronymIEEE 1095CommitteePublished year1989Description
This standard describes installation procedures for synchronous generators and generator/motors rated 5000 kVA and above, to be coupled to hydraulic turbines having vertical shafts.
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Technical committeeTypeAcronymIEEE 1020CommitteePublished year1988Description
Descriptive material intended to assist in the planning for design, development, and operation of small hydroelectric power plant control systems is presented. The controlled electrical and mechanical systems and equipment as well as the control systems are covered. The aim, which is basically tutorial, is to provide a working knowledge of the terminology used in this field and an understanding of the principles of operation of hydroelectric generating units. The control requirements are addressed from an electrical standpoint. For completeness, salient civil features of small hydroelectric projects, are mentioned and equipment protection and operation are discussed.
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Technical committeeTypeAcronymIEEE 1010CommitteePublished year1987Description
Superseded by IEEE Std 1010-2006 Abstract: The control and monitoring requirements for equipment and systems associated with conventional and pumped-storage hydroelectric plants are described. Typical methods of local and remote control, details of the control interfaces for plant equipment, requirements for centralized and off-site control, and trends in control systems are included. The various categories that affect the levels of control for a plant, namely, location, mode, and supervision, are described. Block diagrams and descriptions of the control and monitoring requirements for major plant systems and equipment are given. Control sequencing of generating and pumped storage units, centralized control, and off-site control are covered. The information is directed toward practicing engineers in the field of power plant design who have a basic knowledge of hydroelectric facilities.
Technology