Engineering Fundamentals of the Internal Combustion Engine 1st Edition by Willard Pulkrabek ISBN 0135708540 9780135708545
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Authors:Willard W. Pulkrabek , Series:Mechanical engineering [38] , Tags:Technology & Engineering; Power Resources; General , Author sort:Pulkrabek, Willard W. , Ids:9780131405707 , Languages:Languages:eng , Published:Published:Nov 2004 , Publisher:Pearson Prentice Hall , Comments:Comments:This applied thermoscience book explores the basic principles and applications of various types of internal combustion engines, with a major emphasis on reciprocating engines. KEY TOPICS It covers both spark ignition and compression ignition engines–as well as those operating on four-stroke cycles and on two stroke cycles–ranging in size from small model airplane engines to the larger stationary engines. MARKET: For use as a reference guide in the field of engines, and a basic understanding of the operating of internal combustion engines.
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ISBN 10: 0135708540
ISBN 13: 978-0135708545
Author: Willard W. Pulkrabek
Engineering Fundamentals of the Internal Combustion Engine 1st Table of contents:
1. Introduction to Internal Combustion Engines
1–1 Overview of Internal Combustion Engines
1–2 History and Development of Internal Combustion Engines
1–3 Basic Engine Classification
1–4 Importance and Applications of Internal Combustion Engines
1–5 Engine Operating Cycles and Thermodynamic Principles
2. Engine Components and Design
2–1 Basic Engine Components
2–2 Cylinder Block, Cylinder Head, and Crankcase
2–3 Pistons, Connecting Rods, and Crankshaft
2–4 Valves, Camshaft, and Valve Timing
2–5 Engine Bearings and Lubrication Systems
2–6 Cooling Systems in Internal Combustion Engines
3. Thermodynamics of the Internal Combustion Engine
3–1 The Laws of Thermodynamics
3–2 Thermodynamic Cycles: Ideal vs Real
3–3 The Otto Cycle
3–4 The Diesel Cycle
3–5 Comparison of Otto and Diesel Cycles
3–6 Air Standard Cycles and Efficiency
4. Fuel and Combustion Process
4–1 Types of Fuels for Internal Combustion Engines
4–2 Fuel-Air Mixture Formation and Ignition
4–3 Combustion Process in Spark-Ignition (SI) Engines
4–4 Combustion Process in Compression-Ignition (CI) Engines
4–5 Knock and Its Effects on Engine Performance
4–6 Emissions and Environmental Impact of Combustion
5. Engine Performance and Efficiency
5–1 Power and Torque in Internal Combustion Engines
5–2 Brake Power, Indicated Power, and Friction Power
5–3 Engine Efficiency and Mechanical Losses
5–4 Volumetric and Thermal Efficiency
5–5 Performance Characteristics and Power Curves
6. Engine Dynamics and Vibration
6–1 Forces and Motion in Engine Operation
6–2 Inertia Forces and Their Effects
6–3 Vibrations in Internal Combustion Engines
6–4 Balancing and Damping of Engine Vibrations
6–5 Torsional Vibration in Engine Crankshafts
7. Engine Cooling and Lubrication Systems
7–1 Principles of Engine Cooling
7–2 Types of Cooling Systems (Water, Air)
7–3 Cooling System Components and Maintenance
7–4 Lubrication in Internal Combustion Engines
7–5 Types of Lubricants and Their Functions
7–6 Oil Circulation and Maintenance
8. Fuel Systems and Injection Technologies
8–1 Fuel Delivery Systems in SI Engines
8–2 Carburetors and Fuel Injection Systems
8–3 Electronic Fuel Injection (EFI) Systems
8–4 Diesel Fuel Injection Systems
8–5 Common Rail Direct Injection (CRDI)
8–6 Alternative Fuels and Fuel Technologies
9. Engine Emissions and Control
9–1 Emissions from Internal Combustion Engines
9–2 Combustion-Related Emissions (CO, NOx, HC)
9–3 Emission Control Devices (Catalytic Converters, EGR)
9–4 Legislative Standards and Regulations (EURO, EPA)
9–5 Strategies for Reducing Emissions
9–6 Advances in Clean Combustion Technologies
10. Starting and Ignition Systems
10–1 Basic Principles of Ignition in SI Engines
10–2 Spark Plugs and Ignition Timing
10–3 Electronic and Distributor Ignition Systems
10–4 Starting Systems and Cranking Mechanisms
10–5 Battery and Alternator Systems in Engine Starting
10–6 Starter Motors and Electrical Circuits
11. Engine Design and Testing
11–1 Engine Design Considerations
11–2 Factors Affecting Engine Design (Size, Weight, Durability)
11–3 Engine Test Procedures and Protocols
11–4 Bench Testing and Performance Evaluation
11–5 Diagnostic Tools and Techniques for Engine Testing
12. Engine Operation and Maintenance
12–1 Engine Operating Principles and Conditions
12–2 Engine Operating Cycles and Load Variations
12–3 Lubrication and Fuel Consumption
12–4 Preventive Maintenance and Service Practices
12–5 Troubleshooting Common Engine Problems
13. Alternative Engine Technologies
13–1 Hybrid and Electric Engine Technologies
13–2 Hydrogen and Fuel Cell Engines
13–3 Biofuels and Alternative Fuel Engines
13–4 Compressed Air and Stirling Engines
13–5 Future Trends in Internal Combustion Engine Technology
14. Case Studies and Applications
14–1 Applications in Automotive Engines
14–2 Applications in Aircraft Engines
14–3 Applications in Marine Engines
14–4 Industrial and Power Generation Engines
14–5 Case Studies on Engine Design and Optimization
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