Transformer Books
Electric Machinery Fundamentals instructors solution manual
Author: stephen chapman
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE 312
Topics: Machinery Principles, Transformers, AC, machine, Generator, motor, DC, single phase, three phase, phase, coil, winding, power electronics
Electric Machinery Fundamentals
Author: stephen chapman
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE 312
Topics: Machinery Principles, Transformers, AC, machine, Generator, motor, DC, single phase, three phase, phase, coil, winding, power electronics
Author: John O'Malley
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: EEE301, EEE306, MCE310
Topics: RESISTANCE, SERIES AND PARALLEL DC CIRCUITS, DC CIRCUIT ANALYSIS, DC EQUIVALENT CIRCUITS. NETWORK THEOREMS, BRIDGE CIRCUITS, OPERATIONAL-AMPLIFIER CIRCUITS, DC CIRCUIT ANALYSIS, CAPACITORS, CAPACITANCE, INDUCTORS, INDUCTANCE, TRANSIENT ANALYSIS, INUSOIDAL ALTERNATING VOLTAGE, CURRENT, COMPLEX ALGEBRA, PHASORS, AC CIRCUIT ANALYSIS, IMPEDANCE, ADMITTANCE, MESH, LOOP, NETWORK THEOREMS, TRANSFORMERS, THREE-PHASE CIRCUITS
POWER SYSTEM ANALYSIS AND DESIGN, 5th edition
Author: Duncan Glover, Mulukutla sarma, Thomas overbye
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE312
Topics: transformers, phasors, network equations, three-phase circuits, single-phase, per unit system, transmission line parameters, transmission line design, power flows, faults, sequence networks, system protection, Transient stability, power distribution, smart grids
Electrical electronic engineering studio lecture note
Author: IO Akwukwaegbu
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: EEE302
Topics: transformer, star, delta, load, dc power supply, rectifier
principles of power system engineering
Author: VK Mehta, Rohit Mehta
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE409
Topics: Generating stations, variable load, power stations, tariff, power factor improvement, supply systems, overhead lines, transmission lines, underground cable, distribution systems, D.C distribution, A.C Distribution, Voltage control, switch gear, symmetrical fault, unsymmetrical fault, circuit breakers, fuse, protective relays, Alternator, transformer, bus-bar, lines, over voltages, sub-station, neutral grounding
Practical Electrical Engineering
Author: Sergey Makarov, Reinhold Ludwig, Stephen Bitar
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: ENG226, EEE301
Topics: DC Circuits, Operational Amplifier, Nonlinear Passive Circuit Elements, independent sources, dependent sources, time-varying sources, voltmeter, circuit law, network theorem, circuit analysis, power transfer, Operational Amplifier, Amplifier Models, Transient Circuit, Dynamic Circuit Elements, AC Circuits, Steady-State AC Circuit, filter circuit, bode plot, frequency response, Fourier transform, RLC circuit, AC Power, power distribution, transformer, inductor, digital circuit, switching circuit, analog-to-digital conversion, embedded computing, Diode, Transistor Circuits, Bipolar Junction Transistor, BJT Circuits, MOS Field-Effect Transistor, MOSFET
Author: John Grainger, William Stevenson
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE312, PSE413, EEE409
Topics: Transformer, Synchronous Machine, Transmission Line, Admittance Model, Network Calculation, Impedance Model, Power-Flow Solution, Symmetrical Fault, Sequence Network, Unsymmetrical Fault, Zbus Method, Contingency Analysis, state estimation, power system stability
Solution manual of Power System Analysis
Author: John Grainger, William Stevenson
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE312, PSE413, EEE409
Topics: Transformer, Synchronous Machine, Transmission Line, Admittance Model, Network Calculation, Impedance Model, Power-Flow Solution, Symmetrical Fault, Sequence Network, Unsymmetrical Fault, Zbus Method, Contingency Analysis, state estimation, power system stability
Power System Engineering Planning, Design, and Operation of Power Systems and Equipment ,2nd edition
Author: Juergen Schlabbach, Karl-Heinz Rofalski
School: Federal University of Technology, Owerri
Department: Engineering
Course Code: PSE513
Topics: Power System Engineering, Power System Engineering planning, Power System Engineering design, power system load, load forecast, Low-Voltage Systems, power system planning principles, power system planning criteria, loss evaluation, energy losses, power losses, power system topology, Busbar Arrangements, Double Busbar Arrangement, transformers, Thermal Permissible Loading, cable systems, Permissible Current, overload lines, Flexible AC Transmission Systems, Parallel Compensation of Lines, Serial Compensation of Lines, Phase-Shifting Equipment, HVDC-Transmission, Converter Stations, Breakers, Reactors, Electrodes, Load-Flow Calculation, Short-Circuit Current Calculation, faults, disturbances, Overcurrent Protection, Impedance Protection, Differential Protection of Lines, Ground-Fault Protection, Buchholz Protection, Overvoltages, Insulation Coordination, Slow-Front Overvoltages, Fast-Front Overvoltages, Neutral Earthing, Residual Current Compensation
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