Modeling and control of engines and drivelines

Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel consumption. To achieve these goals, modeling, simulation, and analysis have become standard tools for the development of control systems in the autom...

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Main Authors	Eriksson, Lars, Nielsen, Lars
Format	eBook Book
Language	English
Published	Chichester Wiley 2014 John Wiley & Sons John Wiley & Sons, Incorporated Wiley-Blackwell John Wiley & Sons Ltd
Edition	1st ed.
Series	Automotive series
Subjects	Automobiles Automotive Automotive electronics Bilar Bilelektronik Control systems Design and construction Drivlinor Electronic equipment Elektriska motorer Elektroteknik Engines Motor vehicles Motor vehicles > Power trains > Simulation methods Motorer Motorfordon Motors Power trains Simulation methods TECHNOLOGY & ENGINEERING
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Abstract	Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel consumption. To achieve these goals, modeling, simulation, and analysis have become standard tools for the development of control systems in the automotive industry.
AbstractList	A reference guide to modeling, analysis, and control of engines and drivelines 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. The aim of the book is to provide a set of standard models and serve as a reference material for engineers in the field. Highlights the interplay between the engine and driveline systems, and the integration between systems that is needed for successfully engineering a complete vehicle powertrain. In addition it also emphasises that systems should be designed such that they can be maintained and diagnosed over the vehicle life time, which is also an important engineering task in the development of control systems.-- Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel consumption. To achieve these goals, modeling, simulation, and analysis have become standard tools for the development of control systems in the automotive industry. Modeling and Control of Engines and Drivelines provides an up-to-date treatment of the topic from a clear perspective of systems engineering and control systems, which are at the core of vehicle design. This book has three main goals. The first is to provide a thorough understanding of component models as building blocks. It has therefore been important to provide measurements from real processes, to explain the underlying physics, to describe the modeling considerations, and to validate the resulting models experimentally. Second, the authors show how the models are used in the current design of control and diagnosis systems. These system designs are never used in isolation, so the third goal is to provide a complete setting for system integration and evaluation, including complete vehicle models together with actual requirements and driving cycle analysis. Key features: Covers signals, systems, and control in modern vehicles Covers the basic dynamics of internal combustion engines and drivelines Provides a set of standard models and includes examples and case studies Covers turbo- and super-charging, and automotive dependability and diagnosis Accompanied by a web site hosting example models and problems and solutions Modeling and Control of Engines and Drivelines is a comprehensive reference for graduate students and the authors' close collaboration with the automotive industry ensures that the knowledge and skills that practicing engineers need when analysing and developing new powertrain systems are also covered. Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel consumption. To achieve these goals, modeling, simulation, and analysis have become standard tools for the development of control systems in the automotive industry.
Author	Nielsen, Lars Eriksson, Lars
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Notes	Includes bibliographical references (p. [541]-553) and index Available also in a print ed. Mode of access: Internet via World Wide Web. Title from title screen.
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Snippet	Control systems have come to play an important role in the performance of modern vehicles with regards to meeting goals on low emissions and low fuel... A reference guide to modeling, analysis, and control of engines and drivelines for engineers and an introduction for students in the areas of modeling,...
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SubjectTerms	Automobiles Automotive Automotive electronics Bilar Bilelektronik Control systems Design and construction Drivlinor Electronic equipment Elektriska motorer Elektroteknik Engines Motor vehicles Motor vehicles -- Power trains -- Simulation methods Motorer Motorfordon Motors Power trains Simulation methods TECHNOLOGY & ENGINEERING
SubjectTermsDisplay	Automobiles -- Electronic equipment. Automobiles -- Motors -- Control systems -- Design and construction. Automobiles -- Motors -- Simulation methods. Automotive Electronic books. Motor vehicles -- Power trains -- Control systems -- Design and construction. Motor vehicles -- Power trains -- Simulation methods. TECHNOLOGY & ENGINEERING
TableOfContents	10.8.4 Turbo and Knock Control 8.10 Example-Turbocharged Diesel Engine -- Chapter 9 Engine Management Systems-An Introduction -- 9.1 Engine Management System (EMS) -- 9.1.1 EMS Building Blocks -- 9.1.2 System for Crank and Time-Based Events -- 9.2 Basic Functionality and Software Structure -- 9.2.1 Torque Based Structure -- 9.2.2 Special Modes and Events -- 9.2.3 Automatic Code Generation and Information Exchange -- 9.3 Calibration and Parameter Representation -- 9.3.1 Engine Maps -- 9.3.2 Model-Based Development -- Chapter 10 Basic Control of SI Engines -- 10.1 Three Basic SI Engine Controllers -- 10.1.1 Production System Example -- 10.1.2 Basic Control Using Maps -- 10.1.3 Torque, Air Charge, and Pressure Control -- 10.1.4 Pressure Set Point from Simple Torque Model -- 10.1.5 Set Points from Full Torque Model -- 10.1.6 Pressure Control -- 10.2 Throttle Servo -- 10.2.1 Throttle Control Based on Exact Linearization -- 10.3 Fuel Management and λ Control -- 10.3.1 Feedforward and Feedback λ Control Structure -- 10.3.2 Feedforward λ Control with Basic Fuel Metering -- 10.3.3 Feedback λ Control -- 10.3.4 Fuel Dynamics and Injector Compensation -- 10.3.5 Observer Based λ Control and Adaption -- 10.3.6 Dual and Triple Sensor λ Control -- 10.4 Other Factors that Influence λ Control -- 10.4.1 Full Load Enrichment -- 10.4.2 Engine Overspeed and Overrun -- 10.4.3 Support Systems that Influence Air and Fuel Calculation -- 10.4.4 Cold Start Enrichment -- 10.4.5 Individual Cylinder λ-control -- 10.5 Ignition Control -- 10.5.1 Knock Control-Feedback Control -- 10.5.2 Ignition Energy-Dwell Time Control -- 10.5.3 Long-term Torque, Short-term Torque, and Torque Reserve -- 10.6 Idle Speed Control -- 10.7 Torque Management and Idle Speed Control -- 10.8 Turbo Control -- 10.8.1 Compressor Anti-surge Control -- 10.8.2 Boost Pressure Control -- 10.8.3 Boost Pressure Control with Gain Scheduling 7.8.5 Engine Torque Generation -- 7.9 Mean Value Model for Engine Torque -- 7.9.1 Gross Indicated Work -- 7.9.2 Pumping Work -- 7.9.3 Engine Friction -- 7.9.4 Time Delays in Torque Production -- 7.9.5 Crankshaft Dynamics -- 7.10 Engine-Out Temperature -- 7.11 Heat Transfer and Exhaust Temperatures -- 7.11.1 Temperature Change in a Pipe -- 7.11.2 Heat Transfer Modes in Exhaust Systems -- 7.11.3 Exhaust System Temperature Models -- 7.12 Heat Exchangers and Intercoolers -- 7.12.1 Heat Exchanger Modeling -- 7.13 Throttle Plate Motion -- 7.13.1 Model for Throttle with Throttle Servo -- Chapter 8 Turbocharging Basics and Models -- 8.1 Supercharging and Turbocharging Basics -- 8.2 Turbocharging Basic Principles and Performance -- 8.2.1 Turbochargers in Mean Value Engine Models -- 8.2.2 First Law Analysis of Compressor Performance -- 8.2.3 First Law Analysis of Turbine Performance -- 8.2.4 Connecting the Turbine and Compressor -- 8.2.5 Intake Air Density Increase -- 8.3 Dimensional Analysis -- 8.3.1 Compressible Fluid Analysis -- 8.3.2 Model Structure with Corrected Quantities -- 8.4 Compressor and Turbine Performance Maps -- 8.4.1 The Basic Compressor Map -- 8.4.2 The Basic Turbine Map -- 8.4.3 Measurement Procedures for determining Turbo Maps -- 8.4.4 Turbo Performance Calculation Details -- 8.4.5 Heat Transfer and Turbine Efficiency -- 8.5 Turbocharger Models and Parametrizations -- 8.5.1 Map Interpolation Models -- 8.6 Compressor Operation and Modeling -- 8.6.1 Physical Modeling of a Compressor -- 8.6.2 Compressor Efficiency Models -- 8.6.3 Compressor Flow Models -- 8.6.4 Compressor Choke -- 8.6.5 Compressor Surge -- 8.7 Turbine Operation and Modeling -- 8.7.1 Turbine Mass Flow -- 8.7.2 Turbine Efficiency -- 8.7.3 Variable Geometry Turbine -- 8.8 Transient Response and Turbo Lag -- 8.9 Example-Turbocharged SI Engine 3.3.1 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 Simulation -- 3.5.4 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 Turbocharging -- Chapter 5 Thermodynamics and Working Cycles -- 5.1 The Four-Stroke Cycle -- 5.1.1 Important Engine Events in the Cycle -- 5.2 Thermodynamic Cycle Analysis -- 5.2.1 Ideal Models of Engine Processes -- 5.2.2 Derivation of Cycle Efficiencies -- 5.2.3 Gas Exchange and Pumping Work -- 5.2.4 Residual Gases and Volumetric Efficiency for Ideal Cycles -- 5.3 Efficiency of Ideal Cycles -- 5.3.1 Load, Pumping Work, and Efficiency -- 5.3.2 (A/F) Ratio and Efficiency -- 5.3.3 Differences between Ideal and Real Cycles -- 5.4 Models for In-Cylinder Processes -- 5.4.1 Single-Zone Models -- 5.4.2 Heat Release and Mass Fraction Burned Analysis 5.4.3 Characterization of Mass Fraction Burned -- 5.4.4 More Single-Zone Model Components -- 5.4.5 A Single-zone Cylinder Pressure Model -- 5.4.6 Multi-zone Models -- 5.4.7 Applications for Zero-dimensional Models -- Chapter 6 Combustion and Emissions -- 6.1 Mixture Preparation and Combustion -- 6.1.1 Fuel Injection -- 6.1.2 Comparing the SI and CI Combustion Process -- 6.2 SI Engine Combustion -- 6.2.1 SI Engine Cycle-to-Cycle Variations -- 6.2.2 Knock and Autoignition -- 6.2.3 Autoignition and Octane Number -- 6.3 CI Engine Combustion -- 6.3.1 Autoignition and Cetane Number -- 6.4 Engine Emissions -- 6.4.1 General Trends for Emission Formation -- 6.4.2 Pollutant Formation in SI Engines -- 6.4.3 Pollutant Formation in CI Engines -- 6.5 Exhaust Gas Treatment -- 6.5.1 Catalyst Efficiency, Temperature, and Light-Off -- 6.5.2 SI Engine Aftertreatment, TWC -- 6.5.3 CI Engine Exhaust Gas Treatment -- 6.5.4 Emission Reduction and Controls -- Part III Engine-Modeling and Control -- Chapter 7 Mean Value Engine Modeling -- 7.1 Engine Sensors and Actuators -- 7.1.1 Sensor, System, and Actuator Responses -- 7.1.2 Engine Component Modeling -- 7.2 Flow Restriction Models -- 7.2.1 Incompressible Flow -- 7.2.2 Compressible Flow -- 7.3 Throttle Flow Modeling -- 7.3.1 Throttle Area and Discharge Coefficient -- 7.4 Mass Flow Into the Cylinders -- 7.4.1 Models for Volumetric Efficiency -- 7.5 Volumes -- 7.6 Example-Intake Manifold -- 7.7 Fuel Path and (A/F) Ratio -- 7.7.1 Fuel Pumps, Fuel Rail, Injector Feed -- 7.7.2 Fuel Injector -- 7.7.3 Fuel Preparation Dynamics -- 7.7.4 Gas Transport and Mixing -- 7.7.5 A/F Sensors -- 7.7.6 Fuel Path Validation -- 7.7.7 Catalyst and Post-Catalyst Sensor -- 7.8 In-Cylinder Pressure and Instantaneous Torque -- 7.8.1 Compression Asymptote -- 7.8.2 Expansion Asymptote -- 7.8.3 Combustion -- 7.8.4 Gas Exhange and Model Compilation 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 Drag -- 2.2.2 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 Methodology -- 2.6 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 Control
Title	Modeling and control of engines and drivelines
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