E-books for Electrical Engineers

[Henryrcp]

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[Henryrcp]

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[ciy]

Dear all, please share the e-books as below. THANKS!!

industrial power system grounding design handbook
Power System Transient Analysis: Theory and Practice using Simulation Programs (ATP-EMTP)

[KRIZZ]

Hi Ericssion, Can you upload those textbooks again i cant download them. thanks

[PemulA]

hi
i need this book
power system load flow analysis by Lynn Powell
thanks

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[PemulA]

Hello, I´m looking for the book called "Analysis of subsynchronous resonance in power systems" from Padiyar, K.R.

Thanks in advance!

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[PemulA]

Anyone have the ebook "switchgear and power system protection" by Singh?
Or "Electrical transients in Power systems" 2010 edition by Greenwood?
All the copies online seem to be very poor scanned versions that are impossible to read.

Electrical transients in Power systems

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[PemulA]

Dear all, please share the e-books as below. THANKS!!

industrial power system grounding design handbook
Power System Transient Analysis: Theory and Practice using Simulation Programs (ATP-EMTP)

Transient Analysis of Power Systems: Solution Techniques, Tools and Applications by Juan A. Martinez-Velasco

[link Point to another website Only the registered members can access]

[PemulA]

Dear all, please share the e-books as below. THANKS!!

industrial power system grounding design handbook
Power System Transient Analysis: Theory and Practice using Simulation Programs (ATP-EMTP)

IEEE Recommended Practice for Grounding of Industrial and Commercial Power Systems (green book)

[link Point to another website Only the registered members can access]

[PemulA]

Economic market design and planning for electric power systems by James Momoh, Lamine Mili

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Discover cutting-edge developments in electric power systems
Stemming from cutting-edge research and education activities in the field of electric power systems, this book brings together the knowledge of a panel of experts in economics, the social sciences, and electric power systems. In ten concise and comprehensible chapters, the book provides unprecedented coverage of the operation, control, planning, and design of electric power systems. It also discusses:
A framework for interdisciplinary research and education
Modeling electricity markets
Alternative economic criteria and proactive planning for transmission investment in deregulated power systems
Payment cost minimization with demand bids and partial capacity cost compensations for day-ahead electricity auctions
Dynamic oligopolistic competition in an electric power network and impacts of infrastructure disruptions
Reliability in monopolies and duopolies
Building an efficient, reliable, and sustainable power system
Risk-based power system planning integrating social and economic direct and indirect costs
Models for transmission expansion planning based on reconfiguration capacitor switching
Next-generation optimization for electric power systems
Most chapters end with a bibliography, closing remarks, conclusions, or future work. Economic Market Design and Planning for Electric Power Systems is an indispensable reference for policy-makers, executives and engineers of electric utilities, university faculty members, and graduate students and researchers in control theory, electric power systems, economics, and the social sciences.

[PemulA]

Protection and Switchgear by U.A.Bakshi, M.V.Bakshi

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Circuit Breakers - 1 Elementary principles of arc interruption, Recovery, Restriking voltage and recovery voltages, Restriking phenomenon, Average and max. RRRV, Numerical problems, Current chopping and resistance switching, CB ratings and specifications : Types and Numerical problems, Auto reclosures. Circuit Breakers - 2 Description and operation of following types of circuit breakers : Minimum oil circuit breakers, Air blast circuit breakers, Vaccum and SF6 circuit breakers. Electromagnetic and Static Relays Principle of operation and construction of attracted armature, Balanced beam, Induction disc and induction cup relays. Relays classification : Instantaneous, DMT and IDMT types. Application of relays : Over current/Under voltage relays, Direction relays, Differential relays and percentage differential relays. Universal torque equation, Distance relays : Impedance, Reactance and mho and offset mho relays, Characteristics of distance relays and comparison. Static relays : Static relays versus electromagnetic relays. Generator Protection Protection of generators against stator faults, Rotor faults and abnormal conditions. Restricted earth fault and inter-turn fault protection, Numerical problems on % winding unprotected. Transformer Protection Protection of transformers : Percentage differential protection, Numerical problem on design of CTs ratio, Buchholtz relay protection. Feeder and Busbar Protection Protection of lines : Over current, Carrier current and three-zone distance relay protection using impedance relays, Translay relay. Protection of busbars - Differential protection. Neutral Grounding Grounded and ungrounded neutral systems - Effects of ungrounded neutral on system performance, Methods of neutral grounding : Solid, Resistance, Reactance-Arcing grounds and grounding practices. Protection against Overvoltages Generation of overvoltages in power systems, Protection against lightning overvoltages - Valve type and Zinc-Oxide lightning arresters, Insulation co-ordination-BIL, Impulse ratio, Standard impulse test wave, Volt-time characteristics.

[user82]

Power System Transients: Theory and Applications* Second Edition

This new edition covers a wide area from transients in power systems―including the basic theory* analytical calculations* EMTP simulations* computations by numerical electromagnetic analysis methods* and field test results―to electromagnetic disturbances in the field on EMC and control engineering. Not only does it show how a transient on a single-phase line can be explained from a physical viewpoint* but it then explains how it can be solved analytically by an electric circuit theory. Approximate formulas* which can be calculated by a pocket calculator* are presented so that a transient can be analytically evaluated by a simple hand calculation. Since a real power line is three-phase* this book includes a theory that deals with a multi-phase line for practical application. In addition* methods for tackling a real transient in a power system are introduced. This new edition contains three completely revised and updated chapters* as well as two new chapters on grounding and numerical methods.

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