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1. Handbook of Noise and Vibration Control
Malcolm J. Crocker (ed), Malcolm J. Crocker
出版情報: Wiley Online Library - AutoHoldings Books , Hoboken, N.J. : John Wiley & Sons, Inc., 2007
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Foreword
Preface
Contributors
Fundamentals of Acoustics, Noise, and Vibration / Malcolm J. Crocker1:
Fundamentals of Acoustics and Noise / Part I:
Theory of Sound-Predictions and Measurement / 2:
Sound Sources / Philip A. Nelson3:
Sound Propagation in Rooms / K. Heinrich Kuttruff4:
Sound Propagation in the Atmosphere / Keith Attenborough5:
Sound Radiation from Structures and Their Response to Sound / Jean-Louis Guyader6:
Numerical Acoustical Modeling / Finite Element Modeling) ; R. Jeremy Astley7:
Boundary Element Modeling / D. W. Herrin ; T. W. Wu ; A. F. Seybert8:
Aerodynamic Noise: Theory and Applications / Philip J. Morris ; Geoffrey M. Lilley9:
Nonlinear Acoustics / Oleg V. Rudenko10:
Fundamentals of Vibration / Part II:
General Introduction to Vibration / Bjorn A. T. Petersson11:
Vibration of Simple Discrete and Continuous Systems / Yuri I. Bobrovnitskii12:
Random Vibration / David E. Newland13:
Response of Systems to Shock / Charles Robert Welch ; Robert M. Ebeling14:
Passive Damping / Daniel J. Inman15:
Structure-Borne Energy Flow / Goran Pavic16:
Statistical Energy Analysis / Jerome E. Manning17:
Nonlinear Vibration / Lawrence N. Virgin ; Earl H. Dowell ; George Flowers18:
Human Hearing and Speech / Part III:
General Introduction to Human Hearing and Speech / Karl T. Kalveram19:
The Ear: Its Structure and Function, Related to Hearing / Hiroshi Wada20:
Hearing Thresholds, Loudness of Sound, and Sound Adaptation / William A. Yost21:
Speech Production and Speech Intelligibility / Christine H. Shadle22:
Effects of Noise, Blast, Vibration, and Shock on People / Part IV:
General Introduction to Noise and Vibration Effects on People and Hearing Conservation / 23:
Sleep Disturbance due to Transportation Noise Exposure / Lawrence S. Finegold ; Alain G. Muzet ; Bernard F. Berry24:
Noise-Induced Annoyance / Sandford Fidell25:
Effects of Infrasound, Low-Frequency Noise, and Ultrasound on People / Norm Broner26:
Auditory Hazards of Impulse and Impact Noise / Donald Henderson ; Roger P. Hamernik27:
Effects of Intense Noise on People and Hearing Loss / Rickie R. Davis ; William J. Murphy28:
Effects of Vibration on People / Michael J. Griffin29:
Effects of Mechanical Shock on People / A. J. Brammer30:
Hearing Protectors / Samir N. Y. Gerges ; John G. Casali31:
Development of Standards and Regulations for Occupational Noise / Alice H. Suter32:
Hearing Conservation Programs / John Erdreich33:
Rating Measures, Descriptors, Criteria, and Procedures for Determining Human Response to Noise / 34:
Noise and Vibration Transducers, Analysis Equipment, Signal Processing, and Measuring Techniques / Part V:
General Introduction to Noise and Vibration Transducers, Measuring Equipment, Measurements, Signal Acquisition, and Processing / 35:
Acoustical Transducer Principles and Types of Microphones / Gunnar Rasmussen ; Per Rasmussen36:
Vibration Transducer Principles and Types of Vibration Transducers / Colin H. Hansen37:
Sound Level Meters / George S. K. Wong38:
Noise Dosimeters / Chucri A. Kardous39:
Analyzers and Signal Generators / Henrik Herlufsen ; Svend Gade ; Harry K. Zaveri40:
Equipment for Data Acquisition / Zhuang Li41:
Signal Processing / Allan G. Piersol42:
Noise and Vibration Measurements / Pedro R. Valletta43:
Determination of Sound Power Level and Emission Sound Pressure Level / Hans G. Jonasson44:
Sound Intensity Measurements / Finn Jacobsen45:
Noise and Vibration Data Analysis / Robert B. Randall46:
Modal Analysis and Modal Testing / David J. Ewins47:
Machinery Condition Monitoring / 48:
Wavelet Analysis of Vibration Signals / 49:
Use of Near-Field Acoustical Holography in Noise and Vibration Measurements / Earl G. Williams50:
Calibration of Measurement Microphones / Erling Frederiksen51:
Calibration of Shock and Vibration Transducers / Torben Rask Licht52:
Metrology and Traceability of Vibration and Shock Measurements / Hans-J¿urgen von Martens53:
Principles of Noise and Vibration Control and Quiet Machinery Design / Part VI:
Introduction to Principles of Noise and Vibration Control / 54:
Noise and Vibration Source Identification / 55:
Use of Enclosures / Jorge P. Arenas56:
Use of Sound-Absorbing Materials / 57:
Use of Barriers / 58:
Use of Vibration Isolation / Eric E. Ungar59:
Damping of Structures and Use of Damping Materials / 60:
Dynamic Vibration Absorbers / Leif Kari61:
Rotor Balancing and Unbalance-Caused Vibration / Maurice L. Adams, Jr.62:
Active Noise Control / Stephen J. Elliott63:
Active Vibration Control / Christopher Fuller64:
Microelectromechanical Systems (MEMS) Sensors for Noise and Vibration Applications / James J. Allen65:
Design of Low-Noise Machinery / Michael Bockhoff66:
Psychoacoustics and Product Sound Quality / 67:
Industrial and Machine Element Noise and Vibration Sources-Prediction and Control / Part VII:
Machinery Noise and Vibration Sources / 68:
Gear Noise and Vibration Prediction and Control Methods / Donald R. Houser69:
Types of Bearings and Means of Noise and Vibration Prediction and Control / George Zusman70:
Centrifugal and Axial Fan Noise Prediction and Control / Gerald C. Lauchle71:
Types of Electric Motors and Noise and Vibration Prediction and Control Methods / 72:
Pumps and Pumping System Noise and Vibration Prediction and Control / Mirko Cudina73:
Noise Control of Compressors / 74:
Valve-Induced Noise: Its Cause and Abatement / Hans D. Baumann ; MatsAbom75:
Hydraulic System Noise Prediction and Control / Nigel Johnston76:
Furnace and Burner Noise Control / Robert A. Putnam ; Werner Krebs ; Stanley S. Sattinger77:
Metal-Cutting Machinery Noise and Vibration Prediction and Control / Joseph C. S. Lai78:
Woodworking Machinery Noise / Knud Skovgaard Nielsen and John S. Stewart79:
Noise Abatement of Industrial Production Equipment / Evgeny Rivin80:
Machine Tool Noise, Vibration, and Chatter Prediction and Control / Lars Hakansson ; Sven Johansson ; Ingvar Claesson81:
Sound Power Level Predictions for Industrial Machinery / Robert D. Bruce ; Charles T. Moritz ; Arno S. Bommer82:
Transportation Noise and Vibration-Sources, Prediction, and Control / Part VIII:
Introduction to Transportation Noise and Vibration Sources / 83:
Internal Combustion Engine Noise Prediction and Control-Diesel and Gasoline Engines / Thomas E. Reinhart84:
Ragnar Glav / Hans Bod´en85:
Tire/Road Noise-Generation, Measurement, and Abatement / Ulf Sandberg ; Jerzy A. Ejsmont86:
Aerodynamic Sound Sources in Vehicles-Prediction and Control / Syed R. Ahmed87:
Transmission and Gearbox Noise and Vibration Prediction and Control / Jiri Tuma88:
Jet Engine Noise Generation, Prediction, and Control / Dennis L. Huff ; Edmane Envia89:
F. Farassat / F. Bruce Metzger90:
Helicopter Rotor Noise: Generation, Prediction, and Control / Hanno H. Heller ; Jianping Yin91:
Brake Noise Prediction and Control / Michael J. Brennan ; Kihong Shin92:
Wheel-Rail Interaction Noise Prediction and Its Control / David J. Thompson93:
Interior Transportation Noise and Vibration Sources-Prediction and Control / Part IX:
Introduction to Interior Transportation Noise and Vibration Sources / 94:
Automobile, Bus, and Truck Interior Noise and Vibration Prediction and Control / Robert J. Bernhard ; Mark Moeller ; Shaobo Young95:
Noise Management of Railcar Interior Noise / Glenn H. Frommer96:
Interior Noise in Railway Vehicles-Prediction and Control / Henrik W. Thrane97:
Noise and Vibration in Off-Road Vehicle Interiors-Prediction and Control / Nickolay Ivanov ; David Copley98:
Aircraft Cabin Noise and Vibration Prediction and Passive Control / John F. Wilby99:
Aircraft Cabin Noise and Vibration Prediction and Active Control / Lars H°akansson100:
Noise Prediction and Prevention on Ships / Raymond Fischer ; Robert D. Collier101:
Noise and Vibration Control in Buildings / Part X:
Introduction-Prediction and Control of Acoustical Environments in Building Spaces / Louis C. Sutherland102:
Room Acoustics / 103:
Sound Absorption in Rooms / 104:
Sound Insulation-Airborne and Impact / Alfred C. C. Warnock105:
Ratings and Descriptors for the Built Acoustical Environment / Gregory C. Tocci106:
ISO Ratings and Descriptors for the Built Acoustical Environment / Heinrich A. Metzen107:
Acoustical Design of Office Work Spaces and Open-Plan Offices / Carl J. Rosenberg108:
Acoustical Guidelines for Building Design and Noise Control / Chris Field ; Fergus Fricke109:
Noise Sources and Propagation in Ducted Air Distribution Systems / Howard F. Kingsbury110:
Aerodynamic Sound Generation in Low Speed Flow Ducts / David J. Oldham ; David D. Waddington111:
Noise Control for Mechanical and Ventilation Systems / Reginald H. Keith112:
Noise Control in U.S. Building Codes / 113:
Sound Insulation of Residential Housing-Building Codes and Classification Schemes in Europe / Birgit Rasmussen114:
Noise in Commercial and Public Buildings and Offices-Prediction and Control / 115:
Vibration Response of Structures to Fluid Flow and Wind / 116:
Protection of Buildings from Earthquake-Induced Vibration / Andreas J. Kappos ; Anastasios G. Sextos117:
Low-Frequency Sound Transmission between Adjacent Dwellings / Barry M. Gibbs ; Sophie Maluski118:
Community and Environmental Noise and Vibration Prediction and Control / Part XI:
Introduction to Community Noise and Vibration Prediction and Control / 119:
Exterior Noise of Vehicles-Traffic Noise Prediction and Control / Paul R. Donavan ; Richard Schumacher120:
Rail System Environmental Noise Prediction, Assessment, and Control / Brian Hemsworth121:
Noise Attenuation Provided by Road and Rail Barriers, Earth Berms, Buildings, and Vegetation / Kirill Horoshenkov ; Yiu W. Lam122:
Ground-Borne Vibration Transmission from Road and Rail Systems: Prediction and Control / Hugh E. M. Hunt ; Mohammed F. M. Hussein123:
Base Isolation of Buildings for Control of Ground-Borne Vibration / James P. Talbot124:
Aircraft and Airport Noise Prediction and Control / Nicholas P. Miller ; Eugene M. Reindel ; Richard D. Horonjeff125:
Off-Road Vehicle and Construction Equipment Exterior Noise Prediction and Control / Lyudmila Drozdova ; Gennadiy H. Kurtsev126:
Environmental Noise Impact Assessment / Marion A. Burgess127:
Industrial and Commercial Noise in the Community / Dietrich Kuehner128:
Building Site Noise / Uwe Trautmann129:
Community Noise Ordinances / J. Luis Bento Coelho130:
Reviewers List
Glossary
Index
Numerical Acoustical Modeling (Finite Element Modeling)
Foreword
Preface
Contributors
2.

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2. Engineers Guide to Rotating Equipment - The Pocket Reference
Clifford Matthews
出版情報: Wiley Online Library - AutoHoldings Books , John Wiley & Sons, Inc., 2002
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About the Author
Preface
Introduction
Engineering Fundamentals / Chapter 1:
The Greek alphabet / 1.1:
Units systems / 1.2:
Conversions / 1.3:
Consistency of units / 1.4:
Foolproof conversions: using unity brackets / 1.5:
Imperial-metric conversions / 1.6:
Dimensional analysis / 1.7:
Essential mathematics / 1.8:
Useful references and standards / 1.9:
Bending, Torsion, and Stress / Chapter 2:
Simple stress and strain / 2.1:
Simple elastic bending (flexure) / 2.2:
Slope and deflection of beams / 2.3:
Torsion / 2.4:
Combined bending and torsion / 2.5:
Stress concentration factors / 2.6:
Motion and Dynamics / Chapter 3:
Making sense of dynamic equilibrium / 3.1:
Motion equations / 3.2:
Newton's laws of motion / 3.3:
Simple harmonic motion / 3.4:
Understanding acceleration / 3.5:
Dynamic forces and loadings / 3.6:
Forces due to rotating masses / 3.7:
Forces due to reciprocating masses / 3.8:
Rotating Machine Fundamentals: Vibration, Balancing, and Noise / Chapter 4:
Vibration: general model / 4.1:
Vibration formulae / 4.2:
Machine vibration / 4.3:
Dynamic balancing / 4.4:
Machinery noise / 4.5:
Useful references / 4.6:
Machine Elements / Chapter 5:
Screw fasteners / 5.1:
Bearings / 5.2:
Mechanical power transmission-broad guidelines / 5.3:
Shaft couplings / 5.4:
Gears / 5.5:
Seals / 5.6:
Cam mechanisms / 5.7:
Belt drives / 5.8:
Clutches / 5.9:
Brakes / 5.10:
Pulley mechanisms / 5.11:
Fluid Mechanics / 5.12:
Basic properties / 6.1:
Flow equations / 6.2:
Flow regimes / 6.3:
Boundary layers / 6.4:
Isentropic flow / 6.5:
Compressible one-dimensional flow / 6.6:
Normal shock waves / 6.7:
Axisymmetric flows / 6.8:
Drag coefficients / 6.9:
Centrifugal Pumps / Chapter 7:
Symbols / 7.1:
Centrifugal pump types / 7.2:
Pump performance / 7.3:
Pump characteristics / 7.4:
Specifications and standards / 7.5:
Test procedures and techniques / 7.6:
Pump specific speed n[subscript s] / 7.7:
Pump balancing / 7.8:
Balance calculations / 7.9:
Pump components-clearances and fits / 7.10:
Compressors and Turbocompressors / Chapter 8:
Compressors / 8.1:
Turbocompressors / 8.2:
Prime Movers / Chapter 9:
Steam turbines / 9.1:
Gas turbines-aeroderivatives / 9.2:
Gas turbines-industrial / 9.3:
Gearboxes and testing / 9.4:
Reciprocating internal combustion engines / 9.5:
Turbochargers / 9.6:
Draught Plant / Chapter 10:
Aeropropellers / 10.1:
Draught fans / 10.2:
'Fin-fan' coolers / 10.3:
Basic Mechanical Design / Chapter 11:
Engineering abbreviations / 11.1:
American terminology / 11.2:
Preferred numbers and preferred sizes / 11.3:
Datums and tolerances-principles / 11.4:
Holes / 11.5:
Screw threads / 11.6:
Limits and fits / 11.7:
Surface finish / 11.8:
Reliability in design / 11.9:
Improving design reliability: eight principles / 11.10:
Design for reliability-a new approach / 11.11:
Materials of Construction / 11.12:
Plain carbon steels-basic data / 12.1:
Alloy steels-basic data / 12.2:
Stainless steels-basic data / 12.3:
Non-ferrous alloys-basic data / 12.4:
Material traceability / 12.5:
The Machinery Directives / Chapter 13:
The Machinery Directive 98/37/EC-what is it? / 13.1:
New Approach directives / 13.2:
The scope of the Machinery Directive / 13.3:
The CE mark-what is it? / 13.4:
The technical file / 13.5:
The declaration of conformity / 13.6:
The role of technical standards / 13.7:
The proposed 'amending' directive 95/16/EC / 13.8:
Organizations and Associations / 13.9:
Index
About the Author
Preface
Introduction
3.

電子ブック
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3. Fundamentals of Heat Exchanger Design, Online Version
Shah, Sekuli? Du?an P.
出版情報: Wiley Online Library - AutoHoldings Books , John Wiley & Sons, Inc., 2003
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Preface
Nomenclature
Classification of Heat Exchangers / 1:
Introduction / 1.1:
Classification According to Transfer Processes / 1.2:
Classification According to Number of Fluids / 1.3:
Classification According to Surface Compactness / 1.4:
Classification According to Construction Features / 1.5:
Classification According to Flow Arrangements / 1.6:
Classification According to Heat Transfer Mechanisms / 1.7:
Summary
References
Review Questions
Overview of Heat Exchanger Design Methodology / 2:
Heat Exchanger Design Methodology / 2.1:
Interactions Among Design Considerations / 2.2:
Problems
Basic Thermal Design Theory for Recuperators / 3:
Formal Analogy between Thermal and Electrical Entities / 3.1:
Heat Exchanger Variables and Thermal Circuit / 3.2:
The [epsilon]-NTU Method / 3.3:
Effectiveness--Number of Transfer Unit Relationships / 3.4:
The P-NTU Method / 3.5:
P-NTU Relationships / 3.6:
The Mean Temperature Difference Method / 3.7:
F Factors for Various Flow Arrangements / 3.8:
Comparison of the [epsilon]-NTU, P-NTU, and MTD Methods / 3.9:
The [psi]-P and P[subscript 1]-P[subscript 2] Methods / 3.10:
Solution Methods for Determining Exchanger Effectiveness / 3.11:
Heat Exchanger Design Problems / 3.12:
Additional Considerations for Thermal Design of Recuperators / 4:
Longitudinal Wall Heat Conduction Effects / 4.1:
Nonuniform Overall Heat Transfer Coefficients / 4.2:
Additional Considerations for Extended Surface Exchangers / 4.3:
Additional Considerations for Shell-and-Tube Exchangers / 4.4:
Thermal Design Theory for Regenerators / 5:
Heat Transfer Analysis / 5.1:
The [epsilon]-NTU[subscript 0] Method / 5.2:
The [lambda]-II Method / 5.3:
Influence of Longitudinal Wall Heat Conduction / 5.4:
Influence of Transverse Wall Heat Conduction / 5.5:
Influence of Pressure and Carryover Leakages / 5.6:
Influence of Matrix Material, Size, and Arrangement / 5.7:
Heat Exchanger Pressure Drop Analysis / 6:
Extended Surface Heat Exchanger Pressure Drop / 6.1:
Regenerator Pressure Drop / 6.3:
Tubular Heat Exchanger Pressure Drop / 6.4:
Plate Heat Exchanger Pressure Drop / 6.5:
Pressure Drop Associated with Fluid Distribution Elements / 6.6:
Pressure Drop Presentation / 6.7:
Pressure Drop Dependence on Geometry and Fluid Properties / 6.8:
Surface Basic Heat Transfer and Flow Friction Characteristics / 7:
Basic Concepts / 7.1:
Dimensionless Groups / 7.2:
Experimental Techniques for Determining Surface Characteristics / 7.3:
Analytical and Semiempirical Heat Transfer and Friction Factor Correlations for Simple Geometries / 7.4:
Experimental Heat Transfer and Friction Factor Correlations for Complex Geometries / 7.5:
Influence of Temperature-Dependent Fluid Properties / 7.6:
Influence of Superimposed Free Convection / 7.7:
Influence of Superimposed Radiation / 7.8:
Heat Exchanger Surface Geometrical Characteristics / 8:
Tubular Heat Exchangers / 8.1:
Tube-Fin Heat Exchangers / 8.2:
Plate-Fin Heat Exchangers / 8.3:
Regenerators with Continuous Cylindrical Passages / 8.4:
Shell-and-Tube Exchangers with Segmental Baffles / 8.5:
Gasketed Plate Heat Exchangers / 8.6:
Heat Exchanger Design Procedures / 9:
Fluid Mean Temperatures / 9.1:
Plate Heat Exchangers / 9.2:
Shell-and-Tube Heat Exchangers / 9.5:
Heat Exchanger Optimization / 9.6:
Selection of Heat Exchangers and Their Components / 10:
Selection Criteria Based on Operating Parameters / 10.1:
General Selection Guidelines for Major Exchanger Types / 10.2:
Some Quantitative Considerations / 10.3:
Thermodynamic Modeling and Analysis / 11:
Modeling a Heat Exchanger Based on the First Law of Thermodynamics / 11.1:
Irreversibilities in Heat Exchangers / 11.3:
Thermodynamic Irreversibility and Temperature Cross Phenomena / 11.4:
A Heuristic Approach to an Assessment of Heat Exchanger Effectiveness / 11.5:
Energy, Exergy, and Cost Balances in the Analysis and Optimization of Heat Exchangers / 11.6:
Performance Evaluation Criteria Based on the Second Law of Thermodynamics / 11.7:
Flow Maldistribution and Header Design / 12:
Geometry-Induced Flow Maldistribution / 12.1:
Operating Condition-Induced Flow Maldistribution / 12.2:
Mitigation of Flow Maldistribution / 12.3:
Header and Manifold Design / 12.4:
Fouling and Corrosion / 13:
Fouling and its Effect on Exchanger Heat Transfer and Pressure Drop / 13.1:
Phenomenological Considerations of Fouling / 13.2:
Fouling Resistance Design Approach / 13.3:
Prevention and Mitigation of Fouling / 13.4:
Corrosion in Heat Exchangers / 13.5:
Thermophysical Properties / Appendix A:
[epsilon]-NTU Relationships for Liquid-Coupled Exchangers / Appendix B:
Two-Phase Heat Transfer and Pressure Drop Correlations / Appendix C:
Two-Phase Pressure Drop Correlations / C.1:
Heat Transfer Correlations for Condensation / C.2:
Heat Transfer Correlations for Boiling / C.3:
U and C[subscript UA] Values for Various Heat Exchangers / Appendix D:
General References on or Related to Heat Exchangers
Index
The ?(Epsilon)-NTU Method
Effectiveness - Number of Transfer Unit Relationships
P-N TU R elat ionships
Comparison of the ?(Epsilon)-NTU, P-NTU, and MTD Methods
The ?(Psi)-P and P 1 -P 2 Methods
The ?(Epsilon)-NTU o Method
The ?(Lambda)-?(Pi) Method
Preface
Nomenclature
Classification of Heat Exchangers / 1:
4.

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4. Gas Turbine Performance (2nd Edition)
Philip P Walsh, Paul, Fletcher
出版情報: Wiley Online Library - AutoHoldings Books , Oxford : John Wiley & Sons, Inc., 2004
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Gas Turbine Engine Applications / 1:
Introduction / 1.0:
Comparison of gas turbine and high speed diesel engines / 1.1:
Power generation applications / 1.2:
Industrial mechanical drive applications / 1.3:
Automotive applications / 1.4:
Marine applications / 1.5:
Aircraft applications - propulsion requirements / 1.6:
Shaft powered aircraft - turboprops and turboshafts / 1.7:
Thrust propelled aircraft - turbofans, turbojets and ramjets / 1.8:
Auxiliary power units (APUs) / 1.9:
Formulae
Sample calculations
Charts
References
The Operational Envelope / 2:
The environmental envelope / 2.0:
Installation pressure losses / 2.2:
The flight envelope / 2.3:
Properties and Charts for Dry Air, Combustion Products and other Working Fluids / 3:
Description of fundamental gas properties / 3.0:
Description of key thermodynamic parameters / 3.2:
Composition of dry air an combustion products / 3.3:
The use of CP and gamma, or specific enthalpy and entropy, in calculations / 3.4:
Data base for fundamental and thermodynamic gas properties / 3.5:
Charts showing interrelationships of key thermodynamic parameters / 3.6:
Dimensionless, Quasidimensionless, Referred and Scaling Parameter Group / 4:
The importance of parameter groups / 4.0:
Tables of parameter groups and description / 4.2:
Examples of applications / 4.3:
Second-order effects - steady state performance / 4.4:
Second-order effects - engines scaling / 4.5:
Second-order effects - transient performance / 4.6:
Why components and engines adhere to the parameter group relationships / 4.7:
Gas Turbine Engine Components / 5:
Axial compressors - design point performance and basic sizing / 5.0:
Axial flow - off design performance / 5.2:
Centrifugal compressors - design point performance and basic sizing / 5.3:
Centrifugal compressors - off design performance / 5.4:
Fans - design point performance and basic sizing / 5.5:
Fans - off design performance / 5.6:
Combustors - design point performance and basic sizing / 5.7:
Combustors - off design performance / 5.8:
Axial flow turbines - design point performance and basic sizing guidelines / 5.9:
Axial flow turbines - off design performance / 5.10:
Radial turbines - design / 5.11:
Radial turbines - off design performance / 5.12:
Ducts - design / 5.13:
Ducts - off design performance / 5.14:
Air systems, turbines NGV and blade cooling - design point performance / 5.15:
Air systems - off design performance / 5.16:
Mechanical losses - design point performance and basic sizing / 5.17:
Mechanical losses - off design performance / 5.18:
Mixers - design point performance and basic sizing / 5.19:
Mixers - off design performance / 5.20:
Afterburners - design point performance and basic sizing / 5.21:
Afterburners - off design performance / 5.22:
Heat exchangers - design point performance and basic sizing / 5.23:
Heat exchangers - off design performance / 5.24:
Alternators - design point performance / 5.25:
Alternators - off design performance / 5.26:
Design Point Performance and Engine Concept Design / 6:
Design point and off design performance calculations / 6.0:
Design point performance parameters / 6.2:
Design point calculation and diagram / 6.3:
Linearly scaling components and engines / 6.4:
Design point exchange rates / 6.5:
Ground rules for generic design point diagrams / 6.6:
Open shaft power cycles: generic design point diagrams and exchange rates / 6.7:
Combined heat and power: generic design point diagrams and exchange rates / 6.8:
Closed cycles: generic design point diagrams and exchange rates / 6.9:
Aircraft engines shaft power cycles: generic design point diagrams and exchange rates / 6.10:
Aircraft engine thrust cycles: generic design point diagrams and exchange rates / 6.11:
The engine concept design process / 6.12:
Margins required when specifying target performance levels / 6.13:
Off Design Performance / 7:
Generic off design characteristics / 7.0:
Off design performance modelling - methodology / 7.2:
Off design performance modelling - flow diagrams and sample calculations / 7.3:
Geometric variation: modelling and effects / 7.4:
Engine scaling and different working fluids / 7.5:
Off design matching: physical mechanisms / 7.6:
Exchange rates / 7.7:
Ratings and control / 7.8:
Transient Performance / 8:
The fundamental transient mechanism / 8.0:
Transient performance manoeuvres / 8.2:
Engine accel and decel requirements / 8.3:
Transient performance phenomena / 8.4:
Operability concerns / 8.5:
Surge, rotating stall and locked stall - the events and their detection / 8.6:
Surge margin requirements and the surge margin stack up / 8.7:
Parameter groups and transient performance / 8.8:
Scaling parameter groups and transient performance / 8.9:
Control strategies during transient manoeuvres / 8.10:
Transient performance and control models / 8.11:
Starting / 9:
The fundamental starting process / 9.0:
Start processes for major engine types and applications / 9.2:
Engine start requirements / 9.3:
The impact of ambient temperature and pressure / 9.4:
Operability issues / 9.5:
Starting and parameter groups / 9.6:
Control Strategies and parameter groups / 9.7:
Starter system variants and selection / 9.8:
Start and control models / 9.9:
Windmilling / 10:
Turbojet windmilling / 10.0:
Turbofan windmilling / 10.2:
Turboprop windmilling / 10.3:
Industrial engine windmilling / 10.4:
Marine engine windmilling / 10.5:
The effect of ambient conditions / 10.6:
Scaling an engine / 10.7:
Windmill testing / 10.8:
Windmill computer modelling / 10.9:
Engine Performance Testing / 11:
Types of engine test bed / 11.0:
Measurements and instrumentation / 11.2:
Test bed calibration / 11.3:
Steady state development testing / 11.4:
Transient development testing / 11.5:
Application testing / 11.6:
Production pass off / 11.7:
Test data analysis / 11.8:
The Effects of Water - Liquid, Stream and Ice / 12:
Gas properties / 12.0:
Humidity / 12.2:
Water injection / 12.3:
Steam injection / 12.4:
Condensation / 12.5:
Rain and ice ingestion / 12.6:
The thermodynamics of water / 12.7:
Gas turbine performance modelling and test data analysis / 12.8:
Fuel and Oil Properties and their Impact / 13:
The combustion process and gas turbine fuel types / 13.0:
Data base of key fuel properties for performance calculations / 13.2:
Synthesis exchange rates for primary fuel types / 13.3:
Oil types and data base of key properties / 13.4:
Performance of In-service Products / 14:
Performance and the Economics of Gas Turbine Engines / 15:
Station Numbering and Nomenclature / Appendix A:
International station numbering and nomenclature standards / A.0:
ARP 755A station numbering / A.2:
Nomenclature / A.3:
Customer deck requirements / A.4:
Unit Conversions
Acceleration / B.0:
Area / B.2:
Density / B.3:
Energy / B.4:
Force / B.5:
Fuel consumption / B.6:
Length / B.7:
Mass / B.8:
Moment of inertia / B.9:
Momentum - angular / B.10:
Momentum - linear / B.11:
Power / B.12:
Pressure / B.13:
Specific energy / B.14:
Specific fuel consumption (SFC) / B.15:
Gas Turbine Engine Applications / 1:
Introduction / 1.0:
Comparison of gas turbine and high speed diesel engines / 1.1:
5.

電子ブック
EB
5. Elasticity : Theory, Applications, and Numerics
Martin Howard Sadd, Martin H. Sadd
出版情報: Elsevier ScienceDirect Books Complete , Academic Press, 2009
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Mathematical Preliminaries
Deformation: Displacements and Strains
Stress and Equilibrium
Material Behavior-Linear Elastic Solids
Formulation and Solution Strategies
Strain Energy and Related Principles
Two-Dimensional Formulation
Two-Dimensional Problem Solution
Extension, Torsion and Flexure of Elastic Cylinders
Complex Variable Methods
Anisotropic Elasticity
Thermoelasticity
Displacement Potentials and Stress Functions
Nonhomogeneous Elasticity
Micromechanics Applications
Numerical Finite and Boundary Element Methods
Basic Field Equations in Cartesian, Cylindrical and Spherical Coordinates / Appendix A:
Transformation of Field Variables Between Cartesian, Cylindrical and Spherical Components / Appendix B:
MATLAB Primer / Appendix C:
Review of Mechanics of Materials / Appendix D:
Mathematical Preliminaries
Deformation: Displacements and Strains
Stress and Equilibrium
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