Industrial Power Distribution / Edition 1by Ralph E. Fehr
Pub. Date: 10/01/1901
Publisher: Prentice Hall
Industrial Power Distribution provides a broad overview of electricity utilization in the industrial environment. It serves as both an introductory teaching book and a comprehensive reference. Based on over 20 years of experience in electric power system design and analysis, the author strikes a careful balance between application and theory, and/i>/b>… See more details below
Industrial Power Distribution provides a broad overview of electricity utilization in the industrial environment. It serves as both an introductory teaching book and a comprehensive reference. Based on over 20 years of experience in electric power system design and analysis, the author strikes a careful balance between application and theory, and provides insight to answer “why” instead of just how. Chapter topics cover utility source, medium voltage distribution, balanced fault calculations and protective equipment selection, unbalanced faults, raceway design, switchgear and motor control centers, ladder logic, motors and motor starting, shunt capacitors, and power quality. For use by industry professionals in review courses or as a reference manual.
- Prentice Hall
- Publication date:
- Edition description:
- New Edition
- Product dimensions:
- 6.92(w) x 8.97(h) x 0.78(d)
Table of Contents(NOTE: Each chapter contains a Summary, Questions, and Problems section.)
1. Utility Source.
Delivery Voltage. Source Configuration. Per-Unit Review. Short-Circuit Availability. Transformer Sizing. Primary Metering.
2. Medium Voltage Distribution.
Voltage Selection. Transformer Connections. Transformer Phase Shifts. Grounding Transformers. Ferroresonance. Conductor Sizing.
3. Balanced Fault Calculations and Selection of Protective Equipment.
Overview. Types of Faults. Data Preparation. First-Cycle Symmetrical-Current Calculations. Contact-Parting Symmetrical-Current Calculations. Power Circuit Breaker Selection. Fused Low-Voltage Circuit Breaker Selection. Molded-Case Circuit Breaker Selection. Medium-Voltage Fuse Selection. Current-Limiting Fuse Selection. Low-Voltage Fuse Selection.
4. Unbalanced Faults.
Overview. Symmetrical Components. Sequence Impedances. Sequence Networks. Short-Circuit Faults. Open-Circuit Faults.
5. Raceway Design.
Overview. Conduit and Duct Systems. Cable Tray Systems.
6. Switchgear and Motor Control Centers.
Overview. NEMA Enclosures. Switchgear. Motor Control Centers.
7. Ladder Logic.
Fundamentals. Considerations When Designing Logic. Logic Implementation. Seal-In Circuits. Interlocks. Remote Control and Indication. Reversing Starters. Jogging. Plugging.
8. Motors and Motor Starting.
Review of Fundamentals. Cable Sizing. Motor Protection. Motor-Starting Methods. Variable Frequency Drives.
9. Shunt Capacitors.
Overview. Configuration. Sizing and Placement. Capacitor Switching. Harmonics. Resonance. Protection.
10. Power Quality.
Overview. Historical Perspective. Quantifying Power Quality. Continuity of Service. Voltage Requirements. Transients. Harmonics. Power Factor.
Appendix A. Units of Measurement.
Appendix B. Circuit Analysis Techniques.
Appendix C. Impedance Data.
Appendix D. Ampacity Data.
Appendix E. Conduit Data.
Appendix F. Selected Problem Solutions.
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