00827nam0-22003011i-450-99000027751040332120001010000027751FED01000027751(Aleph)000027751FED0100002775120001010d--------km-y0itay50------baitay-------001yyDigraphstheory and techniquesBy D.F. Robinson and L.R. Foulds.New YorkGordon and Breach Science Publishers1980XV,256 p., ill., 24 cm511Robinson,David Foster14379Foulds,L.R.ITUNINARICAUNIMARCBK99000027751040332104 022-102CI 7219DINCHDINCHDigraphs119656UNINAING0101108nam0 22002771i 450 UON0048609420231205105311.9120180219d1983 |0itac50 baitaIT|||| |||||ˆIl ‰progetto educativo in LockeOrnella De SanctisRomaLa goliardica198397 p.23 cm.001UON004860952001 Collana di scienze dell'educazione. N. S210 RomaLa goliardica4LOCKE JOHNPensiero pedagogicoUONC050517FIITRomaUONL000004370.1Educazione. Filosofia, teorie, generalità21DE SANCTISOrnellaUONV238210481483La GoliardicaUONV279712650ITSOL20240220RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00486094SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI FS 06465 SI FP 11973 5 Progetto educativo in Locke1691924UNIOR05461nam 2200673Ia 450 991100477600332120230120011540.01-282-54079-397866125407900-08-096259-9(CKB)2670000000019504(EBL)534952(OCoLC)635293034(SSID)ssj0000403912(PQKBManifestationID)11302567(PQKBTitleCode)TC0000403912(PQKBWorkID)10434043(PQKB)10158780(MiAaPQ)EBC534952(MiAaPQ)EBC4952405(Au-PeEL)EBL4952405(CaONFJC)MIL254079(OCoLC)1024236900(EXLCZ)99267000000001950420091207d2010 uy 0engur|n|---|||||txtccrFluid mechanics and thermodynamics of turbomachinery /S.L. Dixon, C.A. Hall6th ed.Amsterdam ;Boston Butterworth-Heinemann20101 online resource (481 p.)Description based upon print version of record.1-85617-793-9 Includes bibliographical references and index.Front Cover; Fluid Mechanics and Thermodynamics of Turbomachinery; Copyright; Table of Contents; Preface to the Sixth Edition; Acknowledgments; List of Symbols; 2.1 Dimensional Analysis and Performance Laws; 2.2 Incompressible Fluid Analysis; 2.3 Performance Characteristics for Low Speed Machines; 2.4 Compressible Fluid Analysis; 2.5 Performance Characteristics for High Speed Machines; 2.6 Specific Speed and Specific Diameter; 2.7 Cavitation; Problems; 3.1 Introduction; 3.2 Cascade Geometry; 3.3 Cascade Flow Characteristics; 3.4 Analysis of Cascade Forces; 3.5 Compressor Cascade Performance3.6 Turbine CascadesProblems; 4.1 Introduction; 4.2 Velocity Diagrams of the Axial-Turbine Stage; 4.3 Turbine Stage Design Parameters; 4.4 Thermodynamics of the Axial-Turbine Stage; 4.5 Repeating Stage Turbines; 4.6 Stage Losses and Efficiency; 4.7 Preliminary Axial Turbine Design; 4.8 Styles of Turbine; 4.9 Effect of Reaction on Efficiency; 4.10 Diffusion within Blade Rows; Problems; Chapter 5. Axial-Flow Compressors and Ducted Fans; 5.1 Introduction; 5.2 Mean-Line Analysis of the Compressor Stage; 5.3 Velocity Diagrams of the Compressor Stage; 5.4 Thermodynamics of the Compressor Stage5.5 Stage Loss Relationships and Efficiency5.6 Mean-Line Calculation Through a Compressor Rotor; 5.7 Preliminary Compressor Stage Design; 5.8 Simplified Off-Design Performance; 5.9 Multi-Stage Compressor Performance; 5.10 High Mach Number Compressor Stages; 5.11 Stall and Surge Phenomena in Compressors; 5.12 Low Speed Ducted Fans; 5.14 Blade Element Efficiency; 5.15 Lift Coefficient of a Fan Aerofoil; Problems; 6.1 Introduction; 6.2 Theory of Radial Equilibrium; 6.3 The Indirect Problem; 6.4 The Direct Problem; 6.5 Compressible Flow Through a Fixed Blade Row; 6.6 Constant Specific Mass Flow6.7 Off-Design Performance of a Stage6.8 Free-Vortex Turbine Stage; 6.9 Actuator Disc Approach; 6.11 Application of Computational Fluid Dynamics to the Design of Axial Turbomachines; 6.12 Secondary Flows; Problems; 7.1 Introduction; 7.2 Some Definitions; 7.3 Thermodynamic Analysis of a Centrifugal Compressor; 7.4 Diffuser Performance Parameters; 7.5 Inlet Velocity Limitations at the Eye; 7.6 Optimum Design of a Pump Inlet; 7.7 Optimum Design of a Centrifugal Compressor Inlet; 7.8 Slip Factor; 7.9 Head Increase of a Centrifugal Pump; 7.10 Performance of Centrifugal Compressors7.11 The Diffuser System7.12 Choking In a Compressor Stage; Problems; 8.1 Introduction; 8.2 Types of Inward-Flow Radial Turbine; 8.3 Thermodynamics of the 90° IFR Turbine; 8.4 Basic Design of the Rotor; 8.5 Nominal Design Point Efficiency; 8.6 Mach Number Relations; 8.7 Loss Coefficients in 90° IFR Turbines; 8.8 Optimum Efficiency Considerations; 8.9 Criterion for Minimum Number of Blades; 8.10 Design Considerations for Rotor Exit; 8.11 Significance and Application of Specific Speed; 8.12 Optimum Design Selection of 90° IFR Turbines; 8.13 Clearance and Windage Losses8.14 Cooled 90° IFR TurbinesTurbomachinery is a challenging and diverse field, with applications for professionals and students in many subsets of the mechanical engineering discipline, including fluid mechanics, combustion and heat transfer, dynamics and vibrations, as well as structural mechanics and materials engineering. Originally published more than 40 years ago, Fluid Mechanics and Thermodynamics of Turbomachinery is the leading turbomachinery textbook. Used as a core text in senior undergraduate and graduate level courses this book will also appeal to professional engineers in the aerospace, globTurbomachinesFluid dynamicsTurbomachinesThermodynamicsTurbomachinesFluid dynamics.TurbomachinesThermodynamics.621.406621.406Dixon S. L(Sydney Lawrence)29784Hall C. A(Cesare A.)921532MiAaPQMiAaPQMiAaPQBOOK9911004776003321Fluid mechanics and thermodynamics of turbomachinery4391070UNINA