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Substation Automation Systems
Design and Implementation
Evelio Padilla
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eBook - ePub
Substation Automation Systems
Design and Implementation
Evelio Padilla
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Ă propos de ce livre
Substation Automation Systems: Design and Implementation aims to close the gap created by fast changing technologies impacting on a series of legacy principles related to how substation secondary systems are conceived and implemented. It is intended to help those who have to define and implement SAS, whilst also conforming to the current industry best practice standards.
Key features:
- Project-oriented approach to all practical aspects of SAS design and project development.
- Uniquely focusses on the rapidly changing control aspect of substation design, using novel communication technologies and IEDs (Intelligent Electronic Devices).
- Covers the complete chain of SAS components and related equipment instead of purely concentrating on intelligent electronic devices and communication networks.
- Discusses control and monitoring facilities for auxiliary power systems.
- Contributes significantly to the understanding of the standard IEC 61850, which is viewed as a "black box" for a significant number of professionals around the world.
- Explains standard IEC 61850 â Communication networks and systems for power utility automation â to support all new systems networked to perform control, monitoring, automation, metering and protection functions.
Written for practical application, this book is a valuable resource for professionals operating within different SAS project stages including the: specification process; contracting process; design and engineering process; integration process; testing process and the operation and maintenance process.
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Informations
1
Historical Evolution of Substation Automation Systems (SASs)
The key goal in the operation of electrical power systems is to maintain the energy balance between generation and demand in an economic manner. This often requires changes in system configuration to keep voltage and frequency parameters at acceptable pre-specified ranges; furthermore, configuration changes are needed for maintenance work at utility installations or for clearing faults due to short-circuit currents. Typical changes in system configurations include connection and disconnection of generators, power transformers, transmission lines, shunt reactors and static reactive power compensators. Therefore, such changes in system configuration are made through control facilities available in both generation stations and substations located along transmission and distribution systems (see a view of a substation in Figure 1.1).
Until a few decades ago, the control of electric substations was based on systems consisting of discrete electronic or electromechanical elements, where several functions were carried out separately by specific subsystems. Although those arrangements were reliable because the failure of a subsystem does not affect the performance of the rest of control facilities, it was also quite expensive, as they require a large investment in wiring, cubicles and civil engineering work. Back then, stations were controlled through a large mimic control board located in the main control house, as shown in Figure 1.2.
Sometimes, primary arrangements of substations were placed outside control cubicles lodged in dedicated relay rooms (Figure 1.3).
One of the most emblematic components of that age was the flag relay shown in Figure 1.4, which was the main way to display alarms for the attention of the substation operator.
In terms of civil engineering work, some substations were provided with large concrete channels where several kilometers of copper cables were run, as shown in Figure 1.5.
When microprocessor based substation control systems were originally developed, they were conceived as RTU-centric architecture, and later a distributed LAN architecture became the predominant technology. In more recent years, when control systems and other secondary systems began to incorporate new communication technologies and Intelligent Electronic Devices (IEDs), the complete set of secondary facilities and functionalities was referred to as âSubstation Automation Systemsâ (SASs).
1.1 Emerging Communication Technologies
Development of communication technologies represents an important step allowing SASs to be more and more versatile and increase functionality. The most influential new technologies applied in substations are described in the following sections.
1.1.1 Serial Communication
Serial communication is the process of sending data one bit at a time, over a single communication line. In contrast, parallel communication requires at least as many lines as there are bits in a word being transmitted. This kind of communication was widely used at the beginning of the digital technology incursion in substations; in particular for relay to relay connections through a RS-232 interface. In recent years, instead of serial communication, Ethernet connectivity is gaining a place.
1.1.2 Local Area Network
As a group of computers/devices connected together locally to communicate with one another and share resources, this solution was early dedicated to office environments and later introduced to industrial applications, including substations. The use of LANs in a substation is increasing, in particular the Ethernet LAN specified in Standard IEEE 802.3.
1.2 Intelligent Electronic Devices (IEDs)
Generally, this refers to any device provided with one or several microprocessors able to receive/send data to or from another element. The most common IEDs used in substations are the following types:
1.2.1 Functional Relays
Digital relays (sometimes called computer relays, numerical relays or microprocessor-based relays) are devices that accept inputs and process them using logical algorithms to develop outputs addressed to make decisions resulting in trip commands or alarm signals. Early on, this kind of relay was designed to replace existing electrome...
Table des matiĂšres
- Cover
- Title Page
- Table of Contents
- Preface
- Acknowledgments
- List of Abbreviations
- 1 Historical Evolution of Substation Automation Systems (SASs)
- 2 Main Functions of Substation Automation Systems
- 3 Impact of the IEC 61850 Standard on SAS Projects
- 4 Switchyard Level, Equipment and Interfaces
- 5 Bay Level: Components and Incident Factors
- 6 Station Level: Facilities and Functions
- 7 System Functionalities
- 8 System Inputs and Outputs
- 9 System Engineering
- 10 Communication with the Remote Control Center
- 11 System Attributes
- 12 Tests on SAS Components
- 13 Factory Acceptance Tests
- 14 Commissioning Process
- 15 Training Strategies for Power Utilities
- 16 Planning and Development of SAS Projects
- 17 Quality Managementfor SAS Projects
- 18 SAS Engineering Process According to Standard IEC 61850
- 19 Future Technological Trends
- Appendix A Samples of Equipment and System Signal Lists
- Appendix B Project Drawing List: Titles and Contents
- Appendix C Essential Tips Related to Networking Technology
- Index
- End User License Agreement
Normes de citation pour Substation Automation Systems
APA 6 Citation
Padilla, E. (2015). Substation Automation Systems (1st ed.). Wiley. Retrieved from https://www.perlego.com/book/997833/substation-automation-systems-design-and-implementation-pdf (Original work published 2015)
Chicago Citation
Padilla, Evelio. (2015) 2015. Substation Automation Systems. 1st ed. Wiley. https://www.perlego.com/book/997833/substation-automation-systems-design-and-implementation-pdf.
Harvard Citation
Padilla, E. (2015) Substation Automation Systems. 1st edn. Wiley. Available at: https://www.perlego.com/book/997833/substation-automation-systems-design-and-implementation-pdf (Accessed: 14 October 2022).
MLA 7 Citation
Padilla, Evelio. Substation Automation Systems. 1st ed. Wiley, 2015. Web. 14 Oct. 2022.