Mechanical Engineers’ Handbook Energy and Power 4th edition by Myer Kutz – Ebook PDF Instant Download/Delivery: 1118956373, 9781118956373
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ISBN 10: 1118956373
ISBN 13: 9781118956373
Author: Myer Kutz
The engineer’s ready reference for mechanical power and heat
Mechanical Engineer’s Handbook provides the most comprehensive coverage of the entire discipline, with a focus on explanation and analysis. Packaged as a modular approach, these books are designed to be used either individually or as a set, providing engineers with a thorough, detailed, ready reference on topics that may fall outside their scope of expertise. Each book provides discussion and examples as opposed to straight data and calculations, giving readers the immediate background they need while pointing them toward more in-depth information as necessary. Volume 4: Energy and Power covers the essentials of fluids, thermodynamics, entropy, and heat, with chapters dedicated to individual applications such as air heating, cryogenic engineering, indoor environmental control, and more. Readers will find detailed guidance toward fuel sources and their technologies, as well as a general overview of the mechanics of combustion.
No single engineer can be a specialist in all areas that they are called on to work in the diverse industries and job functions they occupy. This book gives them a resource for finding the information they need, with a focus on topics related to the productions, transmission, and use of mechanical power and heat.
Mechanical Engineers’ Handbook Energy and Power 4th Table of contents:
Part 1 Energy
Chapter 1 Thermophysical Properties of Fluids
Chapter 2 Mechanics of Incompressible Fluids
1 Introduction
2 Fluid Properties
3 Fluid Statics
4 Ideal (Inviscid) Fluid Dynamics
5 Viscous Fluid Dynamics
6 Similitude and Dimensional Analysis
7 Flow in Closed Conduits
8 Flow in Open Channels
9 Flow About Immersed Objects
10 Fluid Measurements
References
Bibliography
Chapter 3 Thermodynamics Fundamentals
1 Introduction
2 First Law of Thermodynamics for Closed Systems
3 Second Law of Thermodynamics for Closed Systems
4 Energy Minimum Principle
5 Laws of Thermodynamics for Open Systems
6 Relations Among Thermodynamic Properties
7 Analysis of Engineering System Components
References
Chapter 4 Exergy Analysis, Entropy Generation Minimization, and the Constructal Law
1 Introduction
2 Exergy Analysis
3 Entropy Generation Minimization
4 Cryogenics
5 Heat Transfer
6 Storage Systems
7 Solar Energy Conversion
8 Power Plants
9 Constructal Law
References
Chapter 5 Heat Transfer Fundamentals
1 Conduction Heat Transfer
2 Convection Heat Transfer
3 Radiation Heat Transfer
4 Boiling and Condensation Heat Transfer
References
Bibliography
Chapter 6 Temperature Measurement
1 Introduction
2 Selection
3 Invasive Temperature Measurement
4 Semi-Invasive Methods
5 Noninvasive Methods
6 Conclusions
References
Chapter 7 Heat Flux Measurement
1 Introduction
2 Important Issues
3 Gauges Based on Spatial Temperature Difference
4 Gauges Based on Temperature Change with Time
5 Gauges Based on Active Heating Methods
6 Calibration and Errors
References
Chapter 8 Furnaces
1 Scope and Intent
2 Standard Conditions
3 Furnace Types
4 Furnace Construction
5 Fuels and Combustion
6 Oxygen Enrichment of Combustion Air
7 Thermal Properties of Materials
8 Heat Transfer
9 Fluid Flow
10 Burner and Control Equipment
11 Waste Heat Recovery Systems
12 Furnace Components in Complex Thermal Processes
13 Furnace Capacity
14 Furnace Temperature Profiles
15 Representative Heating Rates
16 Selecting Number of Furnace Modules
17 Furnace Economics
Reference
Chapter 9 Heat Exchangers, Vaporizers, and Condensers
1 Heat Exchanger Types and Construction
2 Estimation of Size and Cost
3 Rating Methods
4 Common Operational Problems
5 Use of Computers in Thermal Design of Process Heat Exchangers
Nomenclature
References
Chapter 10 Heat Pipes
1 Introduction
2 Fundamentals
3 Heat Transport Limitations
4 Heat Pipe Fabrication Processes
5 Other Types of Heat Pipes
Nomenclature
References
Chapter 11 Air Heating
1 Air-Heating Processes
2 Costs
3 Warnings
4 Benefits
References
Chapter 12 Cooling Electric Equipment
1 Thermal Modeling
2 Heat Transfer Correlations for Electronic Equipment Cooling
3 Thermal Control Techniques
References
Chapter 13 Refrigeration
1 Introduction
2 Basic Principles
3 Refrigeration Cycles and System Overview
4 Refrigerants
5 Absorption Systems
6 Indirect Refrigeration
7 System Components
8 Defrost Methods
9 System Design Considerations
10 Refrigeration System Specification
References
Chapter 14 Cryogenic Engineering
1 Introduction
2 Properties of Cryogenic Fluids
3 Cryogenic Properties of Materials
4 Refrigeration and Liquefaction
5 Cryocoolers
6 Cryostat Design and Insulation
7 Instrumentation
8 Air Separation
9 Safety
10 Helium II
11 Sub-Kelvin Cooling
References
Chapter 15 Indoor Environmental Control
1 Indoor Environment Parameters
2 Air-Handling Processes
3 Thermal Comfort
4 Indoor Air Quality
5 Building Thermal Loads
6 Computer Programs
7 Equipment for Environmental Control
References
Chapter 16 Thermal Systems Optimization
1 Introduction
2 Optimization Toolbox
3 Methodology
4 Approximation-Assisted Optimization
References
Bibliography
Part 2 Power
Chapter 17 Combustion
1 Fundamentals of Combustion
2 Thermal Aspects of Combustion
3 Flame Aerodynamics
4 Firing Systems
5 Pollutant Emissions
6 Safety Considerations
7 Oxy-Fuel Firing
Acknowledgments
References
Chapter 18 Gaseous Fuels
1 Introduction
2 Natural Gas
3 Liquefied Petroleum Gases
References
Chapter 19 Liquid Fossil Fuels from Petroleum
1 Introduction
2 Fuel Oils
3 Shale Oils
4 Oils from Tar Sands
5 Oil-Water Emulsions
References
Chapter 20 Coals, Lignite, and Peat
1 Introduction
2 Current Uses-Heat, Power, Steelmaking, Other
3 Types
4 Physical and Chemical Properties-Description and Tables of Selected Values
5 Burning Characteristics
6 Ash Characteristics
7 Sampling
8 Coal Cleaning
References
Chapter 21 Clean Power Generation from Coal
1 Introduction
2 Preconversion
3 Coal Conversion and In Situ Pollution Control
4 Postconversion Clean-Up
5 Carbon Dioxide
6 Conclusion
References
Chapter 22 Biofuels for Transportation
1 Introduction
2 Ethanol
3 Biodiesel and Vegetable Oil
4 Hydrogen
5 Other Biofuels
6 Closing Remarks
References
Chapter 23 Solar Energy Measurements
1 Introduction
2 Measurement Equipment
3 Equipment Error and Uncertainty
4 Operational Errors
5 Diffuse Radiation Data Measurement Errors
6 Types of Sensors and Their Accuracy
7 Modern Developments
8 Data Quality Assessment
9 Statistical Evaluation of Models
10 Outlier Analysis
References
Chapter 24 Geothermal Resources and Technology: Introduction
1 Introduction
2 Geothermal Resources
3 Geothermal Energy Conversion
References
Chapter 25 Pumps, Fans, Blowers, and Compressors
1 Liquid Movers-Pumps
2 Gas Movers
3 Thermodynamics of Gas Compression
References
Bibliography
Chapter 26 Gas Turbines
1 Introduction
2 Gas Turbine Performance
3 Applications
4 Evaluation and Selection
References
Chapter 27 Wind Power Generation
1 Market and Economics
2 Configurations
3 Power Production and Energy Yield
4 Rotor and Drive Train Design
5 Site Selection
References
Chapter 28 Cogeneration
1 Introduction
2 Basic Cogeneration Systems
3 Descriptions of Prime Movers
4 Description of Other Equipment and Components
5 Technical Design Issues
6 Regulatory Considerations
7 Economic Evaluations
8 Ownership and Financial Arrangements
9 Summary and Conclusions
References
Chapter 29 Hydrogen Energy
1 Introduction
2 Hydrogen Production
3 Hydrogen Storage
4 Hydrogen Utilization
5 Hydrogen Safety
6 Conclusions
References
Chapter 30 Steam Turbines
1 Introduction
2 Historical Evolution of Steam Turbines
3 Turbine Stages
4 Classification of Steam Turbines
5 Steam Turbine Parameters and Performance
6 Cogeneration and Combined-Cycle Plants
7 Applications
8 Other Related Topics
References
Chapter 31 Fuel Cells
1 Introduction
2 Basic Operating Principles, Efficiency, and Performance
3 The Solid Oxide Fuel Cell
References
Chapter 32 Fluid Power Systems
1 Introduction
2 Symbols and Terminology
3 System Components
4 System Dynamic Behavior
5 Common Nonlinearities
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