Mevcut:*
Library | Materyal Türü | Barkod | Yer Numarası | Durum |
|---|---|---|---|---|
Searching... Pamukkale Merkez Kütüphanesi | E-Kitap | EK00193 | TK1751.E44 2007 | Searching... Unknown |
Bound With These Titles
On Order
Özet
Özet
Combining select chapters from Grigsby's standard-setting The Electric Power Engineering Handbookwith several chapters not found in the original work, Electric Power Substations Engineeringbecame widely popular for its comprehensive, tutorial-style treatment of the theory, design, analysis, operation, and protection of power substations. For its second edition, this popular progeny rejoins the handbook as one in a set of five carefully focused volumes.
In addition to substantial updates in most areas, this bestselling reference brings to the Handbook its five original contributions, covering such diverse topics as communications, physical and cyber security, and gas-insulated transmission lines (GIL). This edition also includes two entirely new chapters on substation asset management and substation commissioning. Major updates appear in the highly active areas of integration, automation, substation grounding, high-voltage switching equipment, and air- and gas-insulated substations. With contributions by active leaders from around the world, the coverage reflects international standards, practices, and technologies, not limited to those found in North America. In fact, many of the contributors are involved in developing the standards in their area of expertise.
Updated to include the latest developments, trends, and technologies, Electric Power Substations Engineering, Second Editionprovides a thorough and up-to-date guide for power engineers at all levels of expertise.
Other volumes in the set include:
Electric Power Generation, Transmission, and Distribution
Electric Power Transformer Engineering, Second Edition
Power Systems
Power System Stability and Control
Table of Contents
| How Does a Substation Happen? |
| Background |
| Need Determination |
| Budgeting |
| Financing |
| Traditional and Innovative Substation Design |
| Site Acquisition |
| Design, Construction and Commissioning Process |
| Gas Insulated Substations |
| SF6 |
| Construction and Service Life |
| Economics of GIS |
| Air Insulated Substations--Bus/Switching Configurations |
| Single Bus |
| Double Bus, Double Breaker |
| Main and Transfer Bus |
| Double Bus, Single Breaker |
| Ring Bus |
| Breaker-and-a-Half |
| Comparison of Configurations |
| High Voltage Switching Equipment |
| Ambient Conditions |
| Disconnect Switches |
| Load Break Switches |
| High-Speed Grounding Switchers |
| Power Fuses |
| Circuit Switchers |
| Circuit Breakers |
| GIS Substations |
| Environmental Concerns |
| High Voltage Power Electronic Substations |
| Converter Stations |
| FACTS Controllers |
| Control & Protection System |
| Losses and Cooling |
| Civil Works |
| Reliability & Availability |
| Future Trends |
| The Interface Between Automation and the Substation |
| Physical Considerations |
| Analog Data Acquisition |
| Status Monitoring |
| Control Functions |
| Communications Networks Inside the Substation |
| Testing Automation Systems |
| Summary |
| Substation Integration and Automation |
| Open Systems |
| Substation Integration and Automation Levels |
| Architecture Functional Data Paths |
| Substation Automation Technical Issues |
| Protocol Fundamentals and Considerations |
| Industry Involvement and Standards |
| Oil Containment |
| Oil-Filled Equipment in Substation |
| Spill Risk Assessment |
| Containment Selection Consideration |
| Oil Spill Prevention Techniques |
| Community Considerations |
| Community Acceptance |
| Planning Strategies and Design |
| Permitting Process |
| Construction |
| Operations |
| Animal Deterrents/Security |
| Animal Types |
| Mitigation Methods |
| Substation Grounding |
| Introduction |
| Reasons for Substation Grounding System |
| Accidental Ground Circuit |
| Definitions |
| Design Criteria |
| Soil Resistivity |
| Grid Resistance |
| Grid Current |
| Use of the Design Equations |
| Selection of Conductors and Connections |
| Grounding of Substation Fence |
| Other Design Conditions |
| Grounding and Lightning |
| Lightning Stroke Protection |
| Lightning Parameters |
| Empirical Design Methods |
| The Electromagnetic Model |
| Calculation of Failure Probability |
| Active Lightning Terminals |
| Seismic Considerations |
| A Historical Perspective |
| IEEE 693 - A Solution |
| Relationship Between Earthquakes and Substations |
| Applicable Documents |
| Decision Process for Seismic Design Consideration |
| Performance Levels and Desired Spectra |
| Qualification Process |
| Substation Fire Protection |
| Fire Hazards |
| Fire Protection Measures |
| Fire Protection Selection |
| Hazard Assessment |
| Risk Analysis |
| Conclusion |
| Substation Control Building Fire Protection Review Checklist |
| Substation Switchyard Fire Protection Assessment Process |
| Communications |
| Historical Perspective of Supervisory Control and Data Acquisition (SCADA) |
| SCADA Functional Requirements |
| SCADA Communication Requirements |
| Components of a SCADA System |
| SCADA Communication Protocols: Past, Present, and Future |
| Standards for Substation Communication |
| Intelligent Electronic Devices (IED's) in the Substation Environment |
| The Substation in the Enterprise Network |
| The Emerging Role of Object-Oriented Techniques for Substation Communications |
| Security for Substation Communications |
| The Future Role of Substation Communications |
| Physical Security |
| Introduction |
| History |
| Types of Intruders |
| Substation Development |
| Security Methods |
| Security Assessment |
| Cyber Security |
| Introduction |
| Definitions and Terminology |
| Threats to the Security of Substation Automation Systems |
| Substation Automation System Vulnerabilities |
| Measures to Protect Systems Against Cyber Intrusion |
| Future Measures |
| Gas Insulated Transmission Line (GIL) |
| Introduction |
| History |
| System Design |
| Development and Prototypes |
| Advantages of GIL |
| Application of 2nd Generation GIL |
| Quality Control and Diagnostic Tools |
| Corrosion Protection |
| Insulation Coordination |
| Future Needs of High Power Interconnections |