Three-Phase Electrical Power
Three-Phase Electrical Power addresses all aspects of three-phase power circuits. The book treats the transmission of electrical power from the common sources where it is generated to locations where it is consumed. At typical facilities where electrical power is used, the book covers the important topics of grounding, currents, power, demand, metering, circuit protection, motors, motor protection, power factor correction, tariffs, electrical drawings, and relays. Included in the text are the necessary methods of computing currents and power in all possible types of circuit applications as those that are balanced, unbalanced, leading, lagging, three-wire, and four-wire.
Focusing on electrical gear, programs, and issues related to the generation and use of three-phase electrical power, this contemporary educational guide:
- Uses simple, straightforward language to explain key concepts and their underlying theory
- Introduces numerous examples, illustrations, and photographs to aid in comprehension
- Employs phasor concepts throughout the text to aid in the analysis of three-phase circuits
- Encourages applied learning by supplying practical problems at the end of each chapter
- Provides extensive references and a glossary of symbols, acronyms, and equations
Three-Phase Electrical Power delivers a much-needed modern-day treatment of three-phase electrical power for electrical engineering students and practitioners alike.
Alternating Current. Generation, Transmission, and Distribution. Grounding. Calculating Currents in Three-Phase Circuits. Calculating Three-Phase Power. Demand and Demand Response. Instruments and Meters. Circuit Protection. Motors and Motor Protection. Power Factor Correction. Tariffs. Relays and Contactors. Electrical Drawings. Appendix. Symbols, Acronyms, and Equations. References.
Joseph E. Fleckenstein graduated from Carnegie Mellon University, Pittsburgh, Pennsylvania, USA with a BS in mechanical engineering and a minor in electrical engineering. Post-graduation, he completed more than 47 courses in a variety of subjects, including graduate level courses at the University of Wisconsin, Madison, USA and Pennsylvania State University, State College, USA. He has been a registered professional engineer for more than 30 years and, throughout this period, has been involved in a variety of roles with manufacturers and engineering firms. Over the years, he has authored a number of technical papers, specifications, system descriptions, and prepared online courses for registered professional engineers. A senior member of IEEE, a member of Eta Kappa Nu and a life member of ISA, he is well experienced in electrical power generation, transmission, circuit protection, and controls.
Date de parution : 09-2020
15.6x23.4 cm
Date de parution : 10-2015
15.6x23.4 cm
Mots-clés :
Wye Circuit; Equipment Grounding Conductor; Calculating Currents; Delta Circuit; Phasors; Lagging Power Factor; Three-Phase Electrical Power; Single Phase Circuit; Calculating Three-Phase Power; Fault Current; Three-Phase Power; Time Delay Relay; Electrical Power; Circuit Breaker; Electrical Drawings; Demand Charges; Contactors; Ladder Diagrams; Relays; Capacitor Banks; Tariffs; Low Power Factor; Power Factor Correction; Smart Meters; Motor Protection; Protection Relays; Motors; RMS Voltage; Circuit Protection; RMS Current; Meters; Circuit Protective Device; Instruments; Motor Control Center; Demand Response; Overcurrent Protective Device; Demand; Phase Voltage; Grounding; Billing Period; Fuses; Power Factor; Circuit Breakers; Line Voltage; Distribution; Demand Meter; Transformers; Nema Standard; Alternating Current; Generation; Transmission