As with the other volumes in the Electric Power Engineering Handbook series, this book supplies a high level of detail and, more importantly. Electric Power Substations Engineering [Book Reviews]. Article (PDF Available) in IEEE Power and Energy Magazine 11(3) · May. Combining select chapters from Leonard Grigsby's The Electric Power Engineering. Handbook with several not found in the original work, Electric Power.
|Language:||English, Spanish, French|
|Genre:||Science & Research|
|ePub File Size:||17.80 MB|
|PDF File Size:||20.55 MB|
|Distribution:||Free* [*Register to download]|
I'm a substation engineer and I was very disappointed by this book. It spends too much time explaining the equipment and little to no time explaining design. Electric Substations: Engineering And Practice outlines the basic procedures and will serve as a useful reference book for substation designers, project. Substation Technical Guide Book. Technology Breakthroughs for Substation Automation .. With Moxa's Turbo Chain, network engineers have the.
Fault monitoring and sequence-of-event recording devices are used in most power electronics stations. Typically, these stations are remotely controlled and offer full local controllability as well. Man-machine interfaces are highly computerized, with extensive supervision and control via monitor and keyboard. All of these functions exist in addition to the basic substation secondary systems. HVDC control and protection algorithms are usually rather complex. Real power, reactive power, AC bus frequency and voltage, startup and shutdown sequences, contingency and fault recovery sequences, remedial action schemes, modulation schemes for system oscillation and SSR damping , and loss of communication are some of the significant control parameters and conditions. Fast dynamic performance is standard.
Operators can open the alert message to view a video snap-shot of the event and open a real-time video feed from the substation to view the live scene Figure 1.
All the video and alerts are recorded at the substation for review and archiving. However, simultaneously monitoring the video channels from all substation is an impossible task for one human operator. Here is where the use of video analytics becomes crucial.
Video analytics have been used for security video systems for many years. Most of these analytics utilize algorithms that subtract the picture background from a video feed then analyze the shape and behavior of the objects left in the foreground. All these techniques have been mostly used to create video analytics routines for security purposes e.
Figure 2 — Explosion due to a lightning arrester failure captured by a substation video monitoring system For example, if the analytic is fine tuned to a specific area and type of movement, the analytics can determine the position of a disconnect switch arm and if it has moved. Similarly, analytics can be tuned and focused on the switch contacts to detect an arc flash event that can provide an operator information about an unintentional event or operation.
Problems in a substation like a fire or explosion can also be detected with this type of analytics Figure 2 above. Friction 7.
Simple Lifting Machines 8. Analysis of Framed Structure 9. Equilibrium of Strings Virtual Work Plane Motion Motion under Variable Acceleration Projectiles Relative Velocity Motion of Rotation Combined Motion of Rotation and Translation Simple Harmonic Motion and Free Vibrations Laws of Motion Motion of Connected Bodies Collision of Elastic Bodies Work, Power and Energy Kinetics of Curvilinear and Rotary Motion Transmission of Power by Belts and Ropes Forces in Space Gear Trains Bending Moments and Shearing Forces Balancing of Rotating Masses Vibrations Introduction to Material Science and Metallurgy 2.
Engineering Materials 3. Properties of Engineering Materials 4. Selection of Materials 5. Ferrous Materials 6. Non-Ferrous Materials 7. Materials for High and Low Temperature Service 8. Tool and Die Materials 9. Bearing Materials Spring Materials Die-Casting Alloys Magnetic Materials Precious Metals Metals for Nuclear Energy Identification of Metals and Alloys Ceramic Materials Refractories Refractory Metals Glass Polymers Elastomers Rubber Plastics Materials Composite Materials Adhesives Insulating Materials Ferrous Extractive Metallurgy Extraction of Aluminium Extraction of Copper Extraction of Magnesium Extraction of Zinc Extraction of Lead Extraction of Tin Extraction of Nickel.
Crystallography Electron Theory of Metals and Electronic Properties Imperfections in Metal Crystals Solid Solution Phase Diagrams Iron-Carbon System Solidification of Metals Metallography Heat Treatment Processes Case Hardening and Surface Treatment Heat Treatment Furnaces Temperature Measurement and Control in Metallurgy Pyrometry Diffusion in Solids Corrosion and Oxidation.
Testing of Materials Metallurgy of Welding, Brazing and Soldering Foundry Metallurgy Residual Stresses and their Measurement Powder Metallurgy Deformation of Metals Failure of Metals Strengthening of Metals Mechanical Working Processes Question Bank.
Welding—A Fabrication Process 2. Safety Recommendations in Welding and Cutting 3.
Gas Welding Processes and Equipments 4. Arc Welding Processes and Equipments 5.
Resistance Welding 6. Solid-State Welding Processes 7. Thermochemical Welding Processes 8.
Radiant Energy Welding Processes 9. Underwater Welding Processes Braze or Bronze Welding Brazing Soldering Adhesive Bonding Weldability and Weldability Testing Welding of Wrought Iron Welding of Cast Iron Welding Carbon Steels Welding of Alloy Steels Welding of Tool Steels Welding of Stainless Steels Welding of Aluminium and its Alloys Welding of Magnesium and its Alloys Welding of Copper and its Alloys Welding of Dissimilar Metals Welding of Plastics Hardfacing of Materials Metallizing or Metal Spraying