05899nam 2200757 450 991014028440332120230803195336.01-118-53619-31-118-53618-51-118-53620-7(CKB)2670000000530949(EBL)1643657(SSID)ssj0001132595(PQKBManifestationID)11636053(PQKBTitleCode)TC0001132595(PQKBWorkID)11154845(PQKB)11581084(OCoLC)871860234(MiAaPQ)EBC1643657(DLC) 2013035431(Au-PeEL)EBL1643657(CaPaEBR)ebr10845557(CaONFJC)MIL580379(EXLCZ)99267000000053094920140322h20142014 uy 0engurcnu||||||||txtccrModeling and control of engines and drivelines /Lars Eriksson and Lars NielsenWest Sussex, England :John Wiley & Sons,2014.©20141 online resource (589 p.)Automotive SeriesDescription based upon print version of record.1-118-47999-8 Includes bibliographical references and index.Cover; Title Page; Copyright; Contents; Preface; Series Preface; Part I Vehicle-Propulsion Fundamentals; Chapter 1 Introduction; 1.1 Trends; 1.1.1 Energy and Environment; 1.1.2 Downsizing; 1.1.3 Hybridization; 1.1.4 Driver Support Systems and Optimal Driving; 1.1.5 Engineering Challenges; 1.2 Vehicle Propulsion; 1.2.1 Control Enabling Optimal Operation of Powertrains; 1.2.2 Importance of Powertrain Modeling and Models; 1.2.3 Sustainability of Model Knowledge; 1.3 Organization of the Book; Chapter 2 Vehicle; 2.1 Vehicle Propulsion Dynamics; 2.2 Driving Resistance; 2.2.1 Aerodynamic Drag2.2.2 Cooling Drag and Active Air-Shutters 2.2.3 Air Drag When Platooning; 2.2.4 Rolling Resistance-Physical Background; 2.2.5 Rolling Resistance-Modeling; 2.2.6 Wheel Slip (Skid); 2.2.7 Rolling Resistance-Including Thermal Modeling; 2.2.8 Gravitation; 2.2.9 Relative Size of Components; 2.3 Driving Resistance Models; 2.3.1 Models for Driveline Control; 2.3.2 Standard Driving Resistance Model; 2.3.3 Modeling for Mission Analysis; 2.4 Driver Behavior and Road Modeling; 2.4.1 Simple Driver Model; 2.4.2 Road Modeling; 2.5 Mission Simulation; 2.5.1 Methodology2.6 Vehicle Characterization/Characteristics 2.6.1 Performance Measures; 2.7 Fuel Consumption; 2.7.1 Energy Density Weight; 2.7.2 From Tank to Wheel-Sankey Diagram; 2.7.3 Well-to-Wheel Comparisons; 2.8 Emission Regulations; 2.8.1 US and EU Driving Cycles and Regulations; Chapter 3 Powertrain; 3.1 Powertrain Architectures; 3.1.1 Exhaust Gas Energy Recovery; 3.1.2 Hybrid Powertrains; 3.1.3 Electrification; 3.2 Vehicle Propulsion Control; 3.2.1 Objectives of Vehicle Propulsion Control; 3.2.2 Implementation Framework; 3.2.3 Need for a Control Structure; 3.3 Torque-Based Powertrain Control3.3.1 Propagation of Torque Demands and Torque Commands 3.3.2 Torque-Based Propulsion Control-Driver Interpretation; 3.3.3 Torque-Based Propulsion Control-Vehicle Demands; 3.3.4 Torque-Based Propulsion Control-Driveline management; 3.3.5 Torque-Based Propulsion Control-Driveline-Engine Integration; 3.3.6 Handling of Torque Requests-Torque Reserve and Interventions; 3.4 Hybrid Powertrains; 3.4.1 ICE Handling; 3.4.2 Motor Handling; 3.4.3 Battery Management; 3.5 Outlook and Simulation; 3.5.1 Simulation Structures; 3.5.2 Drive/Driving Cycle; 3.5.3 Forward Simulation3.5.4 Quasi-Static Inverse Simulation 3.5.5 Tracking; 3.5.6 Inverse Dynamic Simulation; 3.5.7 Usage and Requirements; 3.5.8 Same Model Blocks Regardless of Method; Part II Engine-Fundamentals; Chapter 4 Engine-Introduction; 4.1 Air, Fuel, and Air/Fuel Ratio; 4.1.1 Air; 4.1.2 Fuels; 4.1.3 Stoichiometry and (A/F) Ratio; 4.2 Engine Geometry; 4.3 Engine Performance; 4.3.1 Power, Torque, and Mean Effective Pressure; 4.3.2 Efficiency and Specific Fuel Consumption; 4.3.3 Volumetric Efficiency; 4.4 Downsizing and Turbocharging; 4.4.1 Supercharging and TurbochargingChapter 5 Thermodynamics and Working CyclesA reference guide to modeling, analysis, and control of engines and drivelines A reference manual for engineers and an introduction for students in the areas of modeling, analysis, and control of engines and drivelines Covers the basic dynamics of internal combustion engines and drivelines Discusses the goals that engine control design system aims for, and how these targets can be achieved Provides a set of standard models and includes examples and case studies Includes an overview of hybrid vehicles and powertrains Accompanied by a websitAutomotive series (Wiley)Motor vehiclesPower trainsSimulation methodsAutomobilesMotorsSimulation methodsMotor vehiclesPower trainsControl systemsDesign and constructionAutomobilesMotorsControl systemsDesign and constructionAutomobilesElectronic equipmentMotor vehiclesPower trainsSimulation methods.AutomobilesMotorsSimulation methods.Motor vehiclesPower trainsControl systemsDesign and construction.AutomobilesMotorsControl systemsDesign and construction.AutomobilesElectronic equipment.629.25001/1Eriksson Lars1970-965435Nielsen Lars1955-MiAaPQMiAaPQMiAaPQBOOK9910140284403321Modeling and control of engines and drivelines2190382UNINA