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Full Description
Shipboard Electrical Power Systems addresses new developments in this growing field. Focused on the trend toward electrification to power commercial shipping, naval, and passenger vessels, this book helps new or experienced engineers master cutting-edge methods for power system design, control, protection, and economic use of power. Provides Basic Transferable Skills for Managing Electrical Power on Ships or on LandThis groundbreaking book is the first volume of its kind to illustrate optimization of all aspects of shipboard electrical power systems. Applying author Mukund Patel's rare combination of industrial and educational work experiences and insight, it offers solutions to meet the increasing demand for large, fast, efficient, and reconfigurable ships to compete in international markets. For 30 years, Professor Patel was an engineer for companies including General Electric, Lockheed Martin, and Westinghouse Electric, and in the past 15 years he has been an engineering professor at the U.S. Merchant Marine Academy. That varied experience helped him zero in on the specialized multidimensional knowledge an engineer requires-and that is what sets his book apart.Compiles Critical, Hard-to-Find Information on Power System Design, Analysis, and OperationThe global shortage of power engineers is not deterring countries from heavily investing in construction of new power plants and grids. Consequent growth in university electrical power programs is satisfying the demand for engineers, but novice graduates require accelerated understanding and practical experience before entering the thriving maritime segment. Ideal for readers with limited electrical experience, wide-ranging coverage includes power system basics, power generation, electrical machines, power distribution, batteries, and marine industry standards. This book is an invaluable tool for engineers working on ships, as well as in ports, industrial power plants, refineries, and other similar environments.
Contents
AC Power FundamentalsCurrent Voltage Power and EnergyAlternating CurrentAC PhasorPhasor Algebra ReviewSingle-Phase AC Power CircuitAC Power in Complex FormReactive PowerThree-Phase AC Power SystemShipboard Power System ArchitecturesTypes of Ship DrivesElectrical Design TasksElectrical Load AnalysisPower System ConfigurationsCold Ironing/Shore PowerEfficiency and Reliability of ChainShipboard Circuit DesignationShip SimulatorSystems of UnitsCommon Aspects of Power EquipmentFaraday's Law and Coil Voltage EquationMechanical Force and TorqueElectrical Equivalent of Newton's Third LawPower Losses in Electrical MachineMaximum Efficiency Operating PointThevenin Equivalent Source ModelVoltage Drop and RegulationLoad Sharing among SourcesPower Rating of EquipmentTemperature Effect on ResistanceAC GeneratorTerminal PerformanceElectrical ModelElectrical Power OutputTransient Stability LimitEqual Area Criteria of Transient StabilitySpeed and Frequency RegulationsLoad Sharing among AC GeneratorsIsosynchronous GeneratorExcitation MethodsShort Circuit RatioAutomatic Voltage RegulatorAC and DC MotorsInduction MotorSynchronous MotorMotor HP and Line CurrentDual-Use MotorsUnbalanced Voltage EffectDC MotorUniversal (Series) Motor AC or DCSpecial Motors for Ship PropulsionTorque versus Speed ComparisonTransformerTransformer CategoriesTypes of TransformersSelection of kVA RatingTransformer Cooling ClassesThree-Phase Transformer ConnectionsFull- and Open- ConnectionsMagnetizing Inrush CurrentSingle-Line Diagram ModelThree-Winding TransformerPercent and Per Unit SystemsEquivalent Impedance at Different VoltageContinuous Equivalent Circuit through TransformerInfluence of Transformer ImpedancePower CableConductor GageCable InsulationConductor AmpacityCable Electrical ModelSkin and Proximity EffectsCable DesignMarine and Special CablesCable Routing and InstallationPower DistributionTypical Distribution SchemeGrounded and Ungrounded SystemsGround Fault Detection SchemesDistribution Feeder Voltage DropBus Bars Electrical ParametersHigh-Frequency DistributionSwitchboard and SwitchgearFault Current AnalysisTypes and Frequency of FaultsFault Analysis ModelAsymmetrical Fault TransientFault Current Offset FactorFault Current MagnitudeMotor Contribution to Fault CurrentCurrent Limiting Series ReactorUnsymmetrical FaultsCircuit Breaker Selection SimplifiedSystem ProtectionFuseOverload ProtectionElectromechanical RelayCircuit BreakerDifferential Protection of GeneratorDifferential Protection of Bus and FeedersGround Fault Current InterrupterTransformer ProtectionMotor Branch Circuit ProtectionLightning and Switching Voltage ProtectionSurge Protection for Small Sensitive LoadsProtection CoordinationHealth MonitoringArc Flash AnalysisEconomic Use of PowerEconomic AnalysisPower Loss CapitalizationHigh Efficiency MotorPower Factor ImprovementEnergy Storage During NightVariable Speed Motor Drives AC and DCRegenerative BrakingElectrochemical BatteryMajor Rechargeable BatteriesElectrical Circuit ModelPerformance CharacteristicsBattery LifeBattery Types ComparedMore on the Lead-Acid BatteryBattery Design ProcessSafety and EnvironmentMarine Industry StandardsStandard-Issuing OrganizationsClassification SocietiesIEEE Standard-45Code of Federal RegulationsMilitary-Std-1399Appendix A: Symmetrical ComponentsAppendix B: Operating Ships Power System Data
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