Power and communication cables : theory and applications

PREFACE.ACKNOWLEDGMENTS.CHAPTER 1: CABLES: A CHRONOLOGICAL PERSPECTIVE (R. Bartnikas).1.1 Preliminary Remarks.1.2 Power Cables.1.3 Communication Cables.CHAPTER 2: CHARACTERISTICS OF CABLE MATERIALS (R. Bartnikas).2.1 Introduction.2.2 Metallic Conductors.2.3 Conductor and Insulation Semiconducting Shields.2.4 Insulation.2.5 Materials for Protective Coverings.2.6 Armoring Materials.2.7 Coverings for Corrosion Protection.2.8 Conclusion.2.9 Glossary of Cable Materials Technology.CHAPTER 3: DESIGN AND MANUFACTURE OF EXTRUDED SOLID-DIELECTRIC POWER DISTRIBUTION CABLES (H. D. Campbell and L J. Hiivala).3.1 Introduction.3.2 Design Fundamentals.3.3 Design Considerations.3.4 Design Objectives.3.5 Solid-Dielectric Insulation Techniques.3.6 Related Tests.CHAPTER 4: EXTRUDED SOLID-DIELECTRIC POWER TRANSMISSION CABLES (L J. Hiivala).4.1 Introduction.4.2 Design and Construction.4.3 Manufacturing Methods.4.4 Testing.4.5 Accessories.4.6 Concluding Remarks.CHAPTER 5: DESIGN AND MANUFACTURE OF OIL-IMPREGNATED PAPER INSULATED POWER DISTRIBUTION CABLES (W. K. Rybczynski).5.1 Brief History of Development.5.2 Elements of Solid-Type Oil-Paper Cable Design.5.3 Cable Manufacture.5.4 Tests.5.5 Electrical Characteristics.5.6 Conclusion.CHAPTER 6: LOW-PRESSURE OIL-FILLED POWER TRANSMISSION CABLES (W. K. Rybczynski).6.1 Introduction.6.2 Elements of Oil-Filled Cable Design.6.3 Cable Manufacture.6.4 Tests.6.5 Electrical Characteristics.6.6 Principles of Oil Feeding.6.7 Notes on Sheath Bonding.6.8 Limitations of LPOF Cables.6.9 Self-Contained High-Pressure Oil-Filled Cables.6.10 Self Contained Oil-Filled Cables for dc Application.CHAPTER 7: HIGH-PRESSURE OIL-FILLED PIPE-TYPE POWER TRANSMISSION CABLES (W. K. Rybczynski).7.1 Introduction.7.2 Principles of Operation.7.3 Elements of Cable Design.7.4 Cable Manufacture.7.5 Tests.7.6 Electrical Characteristics.7.7 Principles of Oil Feeding.7.8 Cathodic Protection.7.9 Limitations of HPOFPT Cables.7.10 Development of HPOFPT Cable for Higher Voltages in the United States.7.11 Gas-Type Cables.7.12 Gas Compression EHV Cables.7.13 Concluding Remarks.CHAPTER 8: VOLTAGE BREAKDOWN AND OTHER ELECTRICAL TESTS ON POWER CABLES (H. D. Campbell).8.1 Introduction.8.2 Alternating-Current Overvoltage Test.8.3 Direct-Current Overvoltage Test.8.4 Voltage Testing of Production Lengths.8.5 Tests on Specimens.8.6 Impulse Tests.CHAPTER 9: DISSIPATION FACTOR, PARTIAL-DISCHARGE, AND ELECTRICAL AGING TESTS ON POWER CABLES (R. Bartnikas).9.1 Introduction.9.2 Dissipation Factor of a Cable.9.3 Bridge Techniques for the Measurement of tan delta.9.4 Partial-Discharge Characteristics.9.5 Partial-Discharge Measurements.9.6 Partial-Discharge Site Location.9.7 Discharge Pulse Pattern Studies.9.8 Electrical Aging Mechanisms.9.9 Accelerated Electrical Aging Tests.CHAPTER 10: FIELD TESTS AND ACCESSORIES FOR POLYMERIC POWER DISTRIBUTION CABLES (H. H. Campbell and W. T. Starr).10.1 Introduction.10.2 Alternating-Current Overvoltage Test.10.3 Dissipation Factor (Power Factor) Test.10.4 Insulation Resistance Test.10.5 Partial-Discharge Test.10.6 Direct-Current Overvoltage Test.10.7 Direct-Current Test Procedures.10.8 Interpretation of Test Results.10.9 Question of Test Levels.10.10 Direct Stress versus Alternating Stress Considerations.10.11 Practical Test Levels.10.12 Joints and Terminations.10.13 Some Current Practices.CHAPTER 11: POWER CABLE SYSTEMS (G. Ludasi).11.1 Introduction.11.2 Comparison of Overhead Lines and Cables.11.3 Radial Power Systems.11.4 Looped Systems.11.5 Current-Carrying Capacity: Rating Equations.11.6 Calculation of Losses.11.7 Thermal Resistance of Cables.11.8 Cyclic Loading.11.9 Short-Term Overloading.11.10 Fault Currents.11.11 Cable System Economics.11.12 Choice of System Voltage.11.13 Cable Selection and Installation Methods.11.14 Cable Pulling.11.15 Choice of Cable Route and Manhole Location.CHAPTER 12: CRYOGENIC AND COMPRESSED GAS INSULATED POWER CABLES (K. D. Srivastava).12.1 Introduction.12.2 Compressed Gas Insulated Transmission Line System.12.3 Cryoresistive Cables.12.4 Superconductive Cables.12.5 Economic Considerations.CHAPTER 13: UNDERWATER POWER CABLES (R. T. Traut).13.1 Introduction.13.2 Underwater Power Cable Design.13.3 Power Transmission Requirements.13.4 Armor and External Protection Design.13.5 Underwater Power Cable Manufacture.13.6 Cable Transport.13.7 Underwater Power Cable Installation.CHAPTER 14: HIGH-VOLTAGE DIRECT-CURRENT CABLES (C. Doench and K. D. Srivastava).14.1 Introduction.14.2 Electrical Behavior of DC Cables.14.3 Transient Electric Stresses on HVDC Cables.14.4 Design of HVDC Cables.14.5 Selection of Materials.14.6 Direct-Current Cable Accessories.14.7 Testing of DC Cables.14.8 Emerging Trends in HVDC Cable Technology.CHAPTER 15: TELEPHONE CABLES (R. Bartnikas).15.1 Historical Background.15.2 Transmission Parameters of Copper Conductor Telephone Cables.15.3 Digital Transmission.15.4 Characteristics of Metallic Conductor Telephone Cables.15.4.1 Twisted-Wire Multipair Cables.15.5 Electrical Characteristics of Coaxial Cables.15.6 Metallic Conductor Telephone Cable Design and Manufacture.15.7 Coaxial Cable Design and Construction.15.8 Video Pair Cable Design and Construction.15.9 Optical Fiber Telephone Cables.CHAPTER 16: UNDERSEA COAXIAL COMMUNICATION CABLES (R. T. Traut).16.1 Introduction.16.2 Undersea Cable Telecommunications.16.3 Undersea Coaxial Cable Design.CHAPTER 17: TERRESTRIAL AND UNDERWATER OPTICAL FIBER CABLES (W. F. Wright).17.1 Introduction.17.2 Historical Perspective.17.3 Optical Fiber Characteristics.17.4 Introduction to Fiber-Optic Cables.17.5 Introduction to Undersea Fiber-Optic Communication Systems.17.6 Concluding Remarks.AUTHOR INDEX.SUBJECT INDEX.ABOUT THE EDITORS.