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Biblioteca

MARC Lista (tabellare)
Advances in Structures, Systems and Materials [[electronic resource] ] : Select Proceedings of ERCAM 2019 / / edited by M. Vinyas, Amelia Loja, Krishna R. Reddy
Advances in Structures, Systems and Materials [[electronic resource] ] : Select Proceedings of ERCAM 2019 / / edited by M. Vinyas, Amelia Loja, Krishna R. Reddy
Edizione [1st ed. 2020.]
Pubbl/distr/stampa Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Descrizione fisica 1 online resource (316 pages)
Disciplina 620
Collana Lecture Notes on Multidisciplinary Industrial Engineering
Soggetto topico Civil engineering
Statics
Aerospace engineering
Astronautics
Mechanics
Mechanics, Applied
Structural materials
Civil Engineering
Mechanical Statics and Structures
Aerospace Technology and Astronautics
Theoretical and Applied Mechanics
Structural Materials
ISBN 981-15-3254-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 1. Advanced materials and applications -- 2. Computational mechanics and Mathematical modeling -- 3. Structural analysis -- 4. Engineering systems.
Record Nr. UNINA-9910392746303321
Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Advances in Water Pollution Monitoring and Control [[electronic resource] ] : Select Proceedings from HSFEA 2018 / / edited by Nihal Anwar Siddiqui, S. M. Tauseef, Rajendra Dobhal
Advances in Water Pollution Monitoring and Control [[electronic resource] ] : Select Proceedings from HSFEA 2018 / / edited by Nihal Anwar Siddiqui, S. M. Tauseef, Rajendra Dobhal
Edizione [1st ed. 2020.]
Pubbl/distr/stampa Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Descrizione fisica 1 online resource (XVIII, 179 p. 75 illus., 53 illus. in color.)
Disciplina 363.61
Collana Springer Transactions in Civil and Environmental Engineering
Soggetto topico Civil engineering
Water pollution
Water quality
Environmental sciences
Civil Engineering
Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution
Water Quality/Water Pollution
Environmental Science and Engineering
ISBN 981-329-956-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Chapter 1: Anchorage System for Penstocks—Case Study of Champawat Town Pumping Water Supply Scheme -- Chapter 2: An Overview on Toxicity, Detection, and Removal of Chromium in Water and WasteWater -- Chapter 3: ‘Phytowaste’ and Vermicomposting as a Potential Route for Its Environmentally Compatible Utilization -- Chapter 4: Microplastic Contamination and Life Cycle Assessment of Bottled Drinking Water -- Chapter 5: Impact of Water Pollution on Endemic Species -- Chapter 6: Physiological Features of Rice Cultivars Which Influence the Quantity of Methane Emitted by the Cultivars.
Record Nr. UNINA-9910377825303321
Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Advances on testing and experimentation in civil engineering : geotechnics, transportation, hydraulics and natural resources / / edited by Carlos Chastre [and four others]
Advances on testing and experimentation in civil engineering : geotechnics, transportation, hydraulics and natural resources / / edited by Carlos Chastre [and four others]
Pubbl/distr/stampa Cham, Switzerland : , : Springer, , [2023]
Descrizione fisica 1 online resource (382 pages)
Disciplina 624
Collana Springer Tracts in Civil Engineering Ser.
Soggetto topico Civil engineering
ISBN 3-031-05875-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910627280603321
Cham, Switzerland : , : Springer, , [2023]
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Aerodynamics / / Peiqing Liu
Aerodynamics / / Peiqing Liu
Autore Liu Peiqing
Pubbl/distr/stampa Singapore : , : Springer : , : Science Press, , [2022]
Descrizione fisica 1 online resource (869 pages)
Disciplina 532
Soggetto topico Fluids
Thermodynamics
Civil engineering
ISBN 9789811945861
9789811945854
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Foreword -- Preface -- About This Book -- Contents -- Part I Fundamentals of Aerodynamics -- 1 Introduction -- 1.1 Aerodynamics Research Tasks -- 1.2 History of Aerodynamics -- 1.2.1 Qualitative Knowledge and Practice -- 1.2.2 Low Speed Flow Theory -- 1.2.3 High-Speed Flow Theory -- 1.3 The Leading Role of Aerodynamics in the Development of Modern Aircraft -- 1.4 Aerodynamics Research Methods and Classification -- 1.5 Dimension and Unit -- Exercises -- 2 Basic Properties of Fluids and Hydrostatics -- 2.1 Basic Properties of Fluids -- 2.1.1 Continuum Hypothesis -- 2.1.2 Fluidity of Fluid -- 2.1.3 Compressibility and Elasticity of Fluid -- 2.1.4 Viscosity of Fluid (Momentum Transport of Fluid) -- 2.1.5 The Thermal Conductivity of the Fluid (The Heat Transport of the Fluid) -- 2.1.6 Diffusivity of Fluid (Mass Transport of Fluid) -- 2.2 Classification of Forces Acting on a Differential Fluid Element -- 2.3 Isotropic Characteristics of Pressure at Any Point in Static Fluid -- 2.4 Euler Equilibrium Differential Equations -- 2.5 Pressure Distribution Law in Static Liquid in Gravitational Field -- 2.6 Equilibrium Law of Relative Static Liquid -- 2.7 Standard Atmosphere -- Exercises -- 3 Foundation of Fluid Kinematics and Dynamics -- 3.1 Methods for Describing Fluid Motion -- 3.1.1 Lagrange Method (Particle Method or Particle System Method) -- 3.1.2 Euler Method (Space Point Method or Flow Field Method) -- 3.2 Basic Concepts of Flow Field -- 3.2.1 Steady and Unsteady Fields -- 3.2.2 Streamline and Path Line -- 3.2.3 One-Dimensional, Two-Dimensional and Three-Dimensional Flows -- 3.3 Motion Decomposition of a Differential Fluid Element -- 3.3.1 Basic Motion Forms of a Differential Fluid Element -- 3.3.2 Velocity Decomposition Theorem of Fluid Elements -- 3.4 Divergence and Curl of Velocity Field.
3.4.1 Divergence of Velocity Field and Its Physical Significance -- 3.4.2 Curl and Velocity Potential Function of Velocity Field -- 3.5 Continuous Differential Equation -- 3.5.1 Continuity Differential Equation Based on Lagrange View -- 3.5.2 Continuity Differential Equation Based on Euler's Viewpoint -- 3.6 Differential Equations of Ideal Fluid Motion (Euler Equations) -- 3.7 Bernoulli's Equation and Its Physical Significance -- 3.7.1 Bernoulli Equation -- 3.7.2 Application of Bernoulli Equation -- 3.8 Integral Equation of Fluid Motion -- 3.8.1 Basic Concepts of Control Volume and System -- 3.8.2 Lagrangian Integral Equations -- 3.8.3 Reynolds Transport Equation -- 3.8.4 Eulerian Integral Equations -- 3.8.5 Reynolds Transport Equation of the Control Volume with Arbitrary Movement Relative to the Fixed Coordinate System -- 3.9 Vortex Motion and Its Characteristics -- 3.9.1 Vortex Motion -- 3.9.2 Vorticity, Vorticity Flux and Circulation -- Exercises -- 4 Plane Potential Flow of Ideal Incompressible Fluid -- 4.1 Basic Equations of Plane Potential Flow of Ideal Incompressible Fluid -- 4.1.1 Basic Equations of Irrotational Motion of an Ideal Incompressible Fluid -- 4.1.2 Properties of Velocity Potential Function -- 4.1.3 Stream Functions and Their Properties -- 4.1.4 Formulation of the Mathematical Problem of Steady Plane Potential Flow of Ideal Incompressible Fluid -- 4.2 Typical Singularity Potential Flow Solutions -- 4.2.1 Uniform Flow -- 4.2.2 Point Source (Sink) -- 4.2.3 Dipole -- 4.2.4 Point Vortex -- 4.3 Singularity Superposition Solution of Flow Around Some Simple Objects -- 4.3.1 Flow Around a Blunt Semi-infinite Body -- 4.3.2 Flow Around Rankine Pebbles -- 4.3.3 Flow Around a Circular Cylinder Without Circulation -- 4.3.4 Flow Around a Cylinder with Circulation -- 4.4 Numerical Method for Steady Flow Around Two-Dimensional Symmetrical Objects.
Exercises -- 5 Fundamentals of Viscous Fluid Dynamics -- 5.1 The Viscosity of Fluid and Its Influence on Flow -- 5.1.1 Viscosity of Fluid -- 5.1.2 Characteristics of Viscous Fluid Movement -- 5.2 Deformation Matrix of a Differential Fluid Element -- 5.3 Stress State of Viscous Fluid -- 5.4 Generalized Newton's Internal Friction Theorem (Constitutive Relationship) -- 5.5 Differential Equations of Viscous Fluid Motion-Navier-Stokes Equations -- 5.5.1 The Basic Differential Equations of Fluid Motion -- 5.5.2 Navier-Stokes Equations (Differential Equations of Viscous Fluid Motion) -- 5.5.3 Bernoulli Integral -- 5.6 Exact Solutions of Navier-Stokes Equations -- 5.6.1 Couette Flow (Shear Flow) -- 5.6.2 Poiseuille Flow (Pressure Gradient Flow) -- 5.6.3 Couette Flow and Poiseuille Flow Combination -- 5.6.4 Vortex Column and Its Induced Flow Field -- 5.6.5 Parallel Flow Along an Infinitely Long Slope Under Gravity -- 5.7 Basic Properties of Viscous Fluid Motion -- 5.7.1 Vorticity Transport Equation of Viscous Fluid Motion -- 5.7.2 Rotation of Viscous Fluid Motion -- 5.7.3 Diffusion of Viscous Fluid Vortex -- 5.7.4 Dissipation of Viscous Fluid Energy -- 5.8 Laminar Flow, Turbulent Flow and Its Energy Loss -- 5.8.1 Force of Viscous Fluid Clusters and Its Influence on Flow -- 5.8.2 Reynolds Transition Test -- 5.8.3 The Criterion of Flow Pattern-Critical Reynolds Number -- 5.8.4 Resistance Loss Classification -- 5.8.5 Definition of Turbulence -- 5.8.6 Basic Characteristics of Turbulence -- 5.8.7 The Concept of Reynolds Time Mean -- 5.8.8 Reynolds Time-Averaged Motion Equations -- 5.9 Turbulent Eddy Viscosity and Prandtl Mixing Length Theory -- 5.10 Similarity Principle and Dimensionless Differential Equations -- 5.10.1 Principles of Dimensional Analysis-π Theorem -- 5.10.2 Dimensionless N-S Equations -- Exercises -- 6 Boundary Layer Theory and Its Approximation.
6.1 Boundary Layer Approximation and Its Characteristics -- 6.1.1 The Influence of the Viscosity of the Flow Around a Large Reynolds Number Object -- 6.1.2 The Concept of Boundary Layer -- 6.1.3 Various Thicknesses and Characteristics of the Boundary Layer -- 6.2 Laminar Boundary Layer Equations of Incompressible Fluids -- 6.2.1 Boundary Layer Equation on the Wall of a Flat Plate -- 6.2.2 Boundary Layer Equation on Curved Wall -- 6.3 Similar Solutions to the Laminar Boundary Layer on a Flat Plate -- 6.4 Boundary Layer Momentum Integral Equation -- 6.4.1 Derivation of Karman Momentum Integral Equation -- 6.4.2 Derivation of Boundary Layer Momentum Integral Equation from Differential Equation -- 6.5 The Solution of the Momentum Integral Equation of Laminar Boundary Layer on a Flat Plate -- 6.6 Solution of the Momentum Integral Equation of the Turbulent Boundary Layer on a Flat Plate -- 6.7 Boundary Layer Separation -- 6.7.1 Boundary Layer Separation Phenomenon of Flow Around Cylinder -- 6.7.2 Airfoil Separation Phenomenon -- 6.7.3 Velocity Distribution Characteristics of the Boundary Layer in Different Pressure Gradient Areas -- 6.8 Separated Flow and Characteristics of Two-Dimensional Steady Viscous Fluid -- 6.8.1 Separation Mode-Prandtl Image -- 6.8.2 Necessary Conditions for Flow Separation -- 6.8.3 Sufficient Conditions for Flow Separation -- 6.8.4 Flow Characteristics Near the Separation Point -- 6.8.5 Singularity of Boundary Layer Equation (Goldstein Singularity) -- 6.8.6 Critical Point Analysis of Two-Dimensional Steady Separated Flow -- 6.9 Introduction to the Steady Three-Dimensional Separated Flow Over any Object -- 6.9.1 Overview -- 6.9.2 Limit Streamlines and Singularities -- 6.9.3 The Concept of Three-Dimensional Separation -- 6.9.4 Topological Law of Three-Dimensional Separation -- 6.10 Resistance Over Objects.
6.10.1 The Resistance Over Any Object -- 6.10.2 Two-Dimensional Flow Resistance Around a Cylinder -- 6.11 Aircraft Drag and Drag Reduction Technology -- 6.11.1 Composition of Aircraft Drag -- 6.11.2 Technology to Reduce Laminar Flow Resistance -- 6.11.3 Technology to Reduce Turbulence Resistance -- 6.11.4 Technology to Reduce Induced Resistance -- 6.11.5 Technology to Reduce Shock Wave Resistance -- Exercises -- 7 Fundamentals of Compressible Aerodynamics -- 7.1 Thermodynamic System and the First Law -- 7.1.1 Equation of State and Perfect Gas Hypothesis -- 7.1.2 Internal Energy and Enthalpy -- 7.1.3 The First Law of Thermodynamics -- 7.2 Thermodynamic Process -- 7.2.1 Reversible and Irreversible Processes -- 7.2.2 Isovolumetric Process -- 7.2.3 Constant Pressure Process -- 7.2.4 Isothermal Process -- 7.2.5 Adiabatic Process -- 7.3 The Second Law of Thermodynamic and Entropy -- 7.4 Energy Equation of Viscous Gas Motion -- 7.4.1 Physical Meaning of Energy Equation -- 7.4.2 Derivation Process of Energy Equation -- 7.5 Speed of Sound and Mach Number -- 7.5.1 Propagation Velocity of Disturbance Wave in Elastic Medium -- 7.5.2 Micro-Disturbance Propagation Velocity-Speed of Sound -- 7.5.3 Mach Number -- 7.5.4 Assumption of Incompressible Flow -- 7.6 One-Dimensional Compressible Steady Flow Theory -- 7.6.1 Energy Equation of One-Dimensional Compressible Steady Adiabatic Flow -- 7.6.2 Basic Relations Between Parameters of One-Dimensional Compressible Adiabatic Steady Flow -- 7.6.3 Relationship Between Velocity and Cross Section of One-Dimensional Steady Isentropic Pipe Flow -- 7.7 Small Disturbance Propagation Region, Mach Cone, Mach Wave -- 7.8 Expansion Wave and Supersonic Flow Around the Wall at an Outer Angle -- 7.8.1 Mach Wave (Expansion Wave) -- 7.8.2 The Relationship Between the Physical Parameters of the Mach Wave.
7.8.3 Flow Around the Outer Corner of the Supersonic Wall (Prandtl-Meyer Flow).
Record Nr. UNISA-996499861003316
Liu Peiqing  
Singapore : , : Springer : , : Science Press, , [2022]
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Aerodynamics / / Peiqing Liu
Aerodynamics / / Peiqing Liu
Autore Liu Peiqing
Pubbl/distr/stampa Singapore : , : Springer : , : Science Press, , [2022]
Descrizione fisica 1 online resource (869 pages)
Disciplina 532
Soggetto topico Fluids
Thermodynamics
Civil engineering
ISBN 9789811945861
9789811945854
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Foreword -- Preface -- About This Book -- Contents -- Part I Fundamentals of Aerodynamics -- 1 Introduction -- 1.1 Aerodynamics Research Tasks -- 1.2 History of Aerodynamics -- 1.2.1 Qualitative Knowledge and Practice -- 1.2.2 Low Speed Flow Theory -- 1.2.3 High-Speed Flow Theory -- 1.3 The Leading Role of Aerodynamics in the Development of Modern Aircraft -- 1.4 Aerodynamics Research Methods and Classification -- 1.5 Dimension and Unit -- Exercises -- 2 Basic Properties of Fluids and Hydrostatics -- 2.1 Basic Properties of Fluids -- 2.1.1 Continuum Hypothesis -- 2.1.2 Fluidity of Fluid -- 2.1.3 Compressibility and Elasticity of Fluid -- 2.1.4 Viscosity of Fluid (Momentum Transport of Fluid) -- 2.1.5 The Thermal Conductivity of the Fluid (The Heat Transport of the Fluid) -- 2.1.6 Diffusivity of Fluid (Mass Transport of Fluid) -- 2.2 Classification of Forces Acting on a Differential Fluid Element -- 2.3 Isotropic Characteristics of Pressure at Any Point in Static Fluid -- 2.4 Euler Equilibrium Differential Equations -- 2.5 Pressure Distribution Law in Static Liquid in Gravitational Field -- 2.6 Equilibrium Law of Relative Static Liquid -- 2.7 Standard Atmosphere -- Exercises -- 3 Foundation of Fluid Kinematics and Dynamics -- 3.1 Methods for Describing Fluid Motion -- 3.1.1 Lagrange Method (Particle Method or Particle System Method) -- 3.1.2 Euler Method (Space Point Method or Flow Field Method) -- 3.2 Basic Concepts of Flow Field -- 3.2.1 Steady and Unsteady Fields -- 3.2.2 Streamline and Path Line -- 3.2.3 One-Dimensional, Two-Dimensional and Three-Dimensional Flows -- 3.3 Motion Decomposition of a Differential Fluid Element -- 3.3.1 Basic Motion Forms of a Differential Fluid Element -- 3.3.2 Velocity Decomposition Theorem of Fluid Elements -- 3.4 Divergence and Curl of Velocity Field.
3.4.1 Divergence of Velocity Field and Its Physical Significance -- 3.4.2 Curl and Velocity Potential Function of Velocity Field -- 3.5 Continuous Differential Equation -- 3.5.1 Continuity Differential Equation Based on Lagrange View -- 3.5.2 Continuity Differential Equation Based on Euler's Viewpoint -- 3.6 Differential Equations of Ideal Fluid Motion (Euler Equations) -- 3.7 Bernoulli's Equation and Its Physical Significance -- 3.7.1 Bernoulli Equation -- 3.7.2 Application of Bernoulli Equation -- 3.8 Integral Equation of Fluid Motion -- 3.8.1 Basic Concepts of Control Volume and System -- 3.8.2 Lagrangian Integral Equations -- 3.8.3 Reynolds Transport Equation -- 3.8.4 Eulerian Integral Equations -- 3.8.5 Reynolds Transport Equation of the Control Volume with Arbitrary Movement Relative to the Fixed Coordinate System -- 3.9 Vortex Motion and Its Characteristics -- 3.9.1 Vortex Motion -- 3.9.2 Vorticity, Vorticity Flux and Circulation -- Exercises -- 4 Plane Potential Flow of Ideal Incompressible Fluid -- 4.1 Basic Equations of Plane Potential Flow of Ideal Incompressible Fluid -- 4.1.1 Basic Equations of Irrotational Motion of an Ideal Incompressible Fluid -- 4.1.2 Properties of Velocity Potential Function -- 4.1.3 Stream Functions and Their Properties -- 4.1.4 Formulation of the Mathematical Problem of Steady Plane Potential Flow of Ideal Incompressible Fluid -- 4.2 Typical Singularity Potential Flow Solutions -- 4.2.1 Uniform Flow -- 4.2.2 Point Source (Sink) -- 4.2.3 Dipole -- 4.2.4 Point Vortex -- 4.3 Singularity Superposition Solution of Flow Around Some Simple Objects -- 4.3.1 Flow Around a Blunt Semi-infinite Body -- 4.3.2 Flow Around Rankine Pebbles -- 4.3.3 Flow Around a Circular Cylinder Without Circulation -- 4.3.4 Flow Around a Cylinder with Circulation -- 4.4 Numerical Method for Steady Flow Around Two-Dimensional Symmetrical Objects.
Exercises -- 5 Fundamentals of Viscous Fluid Dynamics -- 5.1 The Viscosity of Fluid and Its Influence on Flow -- 5.1.1 Viscosity of Fluid -- 5.1.2 Characteristics of Viscous Fluid Movement -- 5.2 Deformation Matrix of a Differential Fluid Element -- 5.3 Stress State of Viscous Fluid -- 5.4 Generalized Newton's Internal Friction Theorem (Constitutive Relationship) -- 5.5 Differential Equations of Viscous Fluid Motion-Navier-Stokes Equations -- 5.5.1 The Basic Differential Equations of Fluid Motion -- 5.5.2 Navier-Stokes Equations (Differential Equations of Viscous Fluid Motion) -- 5.5.3 Bernoulli Integral -- 5.6 Exact Solutions of Navier-Stokes Equations -- 5.6.1 Couette Flow (Shear Flow) -- 5.6.2 Poiseuille Flow (Pressure Gradient Flow) -- 5.6.3 Couette Flow and Poiseuille Flow Combination -- 5.6.4 Vortex Column and Its Induced Flow Field -- 5.6.5 Parallel Flow Along an Infinitely Long Slope Under Gravity -- 5.7 Basic Properties of Viscous Fluid Motion -- 5.7.1 Vorticity Transport Equation of Viscous Fluid Motion -- 5.7.2 Rotation of Viscous Fluid Motion -- 5.7.3 Diffusion of Viscous Fluid Vortex -- 5.7.4 Dissipation of Viscous Fluid Energy -- 5.8 Laminar Flow, Turbulent Flow and Its Energy Loss -- 5.8.1 Force of Viscous Fluid Clusters and Its Influence on Flow -- 5.8.2 Reynolds Transition Test -- 5.8.3 The Criterion of Flow Pattern-Critical Reynolds Number -- 5.8.4 Resistance Loss Classification -- 5.8.5 Definition of Turbulence -- 5.8.6 Basic Characteristics of Turbulence -- 5.8.7 The Concept of Reynolds Time Mean -- 5.8.8 Reynolds Time-Averaged Motion Equations -- 5.9 Turbulent Eddy Viscosity and Prandtl Mixing Length Theory -- 5.10 Similarity Principle and Dimensionless Differential Equations -- 5.10.1 Principles of Dimensional Analysis-π Theorem -- 5.10.2 Dimensionless N-S Equations -- Exercises -- 6 Boundary Layer Theory and Its Approximation.
6.1 Boundary Layer Approximation and Its Characteristics -- 6.1.1 The Influence of the Viscosity of the Flow Around a Large Reynolds Number Object -- 6.1.2 The Concept of Boundary Layer -- 6.1.3 Various Thicknesses and Characteristics of the Boundary Layer -- 6.2 Laminar Boundary Layer Equations of Incompressible Fluids -- 6.2.1 Boundary Layer Equation on the Wall of a Flat Plate -- 6.2.2 Boundary Layer Equation on Curved Wall -- 6.3 Similar Solutions to the Laminar Boundary Layer on a Flat Plate -- 6.4 Boundary Layer Momentum Integral Equation -- 6.4.1 Derivation of Karman Momentum Integral Equation -- 6.4.2 Derivation of Boundary Layer Momentum Integral Equation from Differential Equation -- 6.5 The Solution of the Momentum Integral Equation of Laminar Boundary Layer on a Flat Plate -- 6.6 Solution of the Momentum Integral Equation of the Turbulent Boundary Layer on a Flat Plate -- 6.7 Boundary Layer Separation -- 6.7.1 Boundary Layer Separation Phenomenon of Flow Around Cylinder -- 6.7.2 Airfoil Separation Phenomenon -- 6.7.3 Velocity Distribution Characteristics of the Boundary Layer in Different Pressure Gradient Areas -- 6.8 Separated Flow and Characteristics of Two-Dimensional Steady Viscous Fluid -- 6.8.1 Separation Mode-Prandtl Image -- 6.8.2 Necessary Conditions for Flow Separation -- 6.8.3 Sufficient Conditions for Flow Separation -- 6.8.4 Flow Characteristics Near the Separation Point -- 6.8.5 Singularity of Boundary Layer Equation (Goldstein Singularity) -- 6.8.6 Critical Point Analysis of Two-Dimensional Steady Separated Flow -- 6.9 Introduction to the Steady Three-Dimensional Separated Flow Over any Object -- 6.9.1 Overview -- 6.9.2 Limit Streamlines and Singularities -- 6.9.3 The Concept of Three-Dimensional Separation -- 6.9.4 Topological Law of Three-Dimensional Separation -- 6.10 Resistance Over Objects.
6.10.1 The Resistance Over Any Object -- 6.10.2 Two-Dimensional Flow Resistance Around a Cylinder -- 6.11 Aircraft Drag and Drag Reduction Technology -- 6.11.1 Composition of Aircraft Drag -- 6.11.2 Technology to Reduce Laminar Flow Resistance -- 6.11.3 Technology to Reduce Turbulence Resistance -- 6.11.4 Technology to Reduce Induced Resistance -- 6.11.5 Technology to Reduce Shock Wave Resistance -- Exercises -- 7 Fundamentals of Compressible Aerodynamics -- 7.1 Thermodynamic System and the First Law -- 7.1.1 Equation of State and Perfect Gas Hypothesis -- 7.1.2 Internal Energy and Enthalpy -- 7.1.3 The First Law of Thermodynamics -- 7.2 Thermodynamic Process -- 7.2.1 Reversible and Irreversible Processes -- 7.2.2 Isovolumetric Process -- 7.2.3 Constant Pressure Process -- 7.2.4 Isothermal Process -- 7.2.5 Adiabatic Process -- 7.3 The Second Law of Thermodynamic and Entropy -- 7.4 Energy Equation of Viscous Gas Motion -- 7.4.1 Physical Meaning of Energy Equation -- 7.4.2 Derivation Process of Energy Equation -- 7.5 Speed of Sound and Mach Number -- 7.5.1 Propagation Velocity of Disturbance Wave in Elastic Medium -- 7.5.2 Micro-Disturbance Propagation Velocity-Speed of Sound -- 7.5.3 Mach Number -- 7.5.4 Assumption of Incompressible Flow -- 7.6 One-Dimensional Compressible Steady Flow Theory -- 7.6.1 Energy Equation of One-Dimensional Compressible Steady Adiabatic Flow -- 7.6.2 Basic Relations Between Parameters of One-Dimensional Compressible Adiabatic Steady Flow -- 7.6.3 Relationship Between Velocity and Cross Section of One-Dimensional Steady Isentropic Pipe Flow -- 7.7 Small Disturbance Propagation Region, Mach Cone, Mach Wave -- 7.8 Expansion Wave and Supersonic Flow Around the Wall at an Outer Angle -- 7.8.1 Mach Wave (Expansion Wave) -- 7.8.2 The Relationship Between the Physical Parameters of the Mach Wave.
7.8.3 Flow Around the Outer Corner of the Supersonic Wall (Prandtl-Meyer Flow).
Record Nr. UNINA-9910633916003321
Liu Peiqing  
Singapore : , : Springer : , : Science Press, , [2022]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Affective and Social Signals for HRI
Affective and Social Signals for HRI
Pubbl/distr/stampa Frontiers Media SA, 2020
Descrizione fisica 1 electronic resource (185 pages)
Soggetto topico Civil engineering
Soggetto non controllato  Social Robotics
Social Signals
Recognition
Affective Robotics
Embodiment
Expressive Robotics
Human-Robot Interaction
Collaborative Robots
Social HRI
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910557258003321
Frontiers Media SA, 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
AIIA 2022: Biosystems Engineering Towards the Green Deal [[electronic resource] ] : Improving the Resilience of Agriculture, Forestry and Food Systems in the Post-Covid Era / / edited by Vito Ferro, Giuseppe Giordano, Santo Orlando, Mariangela Vallone, Giovanni Cascone, Simona M. C. Porto
AIIA 2022: Biosystems Engineering Towards the Green Deal [[electronic resource] ] : Improving the Resilience of Agriculture, Forestry and Food Systems in the Post-Covid Era / / edited by Vito Ferro, Giuseppe Giordano, Santo Orlando, Mariangela Vallone, Giovanni Cascone, Simona M. C. Porto
Autore Ferro Vito
Edizione [1st ed. 2023.]
Pubbl/distr/stampa Cham : , : Springer International Publishing : , : Imprint : Springer, , 2023
Descrizione fisica 1 online resource (1201 pages)
Disciplina 630
Altri autori (Persone) GiordanoGiuseppe
OrlandoSanto
ValloneMariangela
CasconeGiovanni
PortoSimona M. C
Collana Lecture Notes in Civil Engineering
Soggetto topico Environmental engineering
Civil engineering
Agriculture
Forestry
Food science
Environmental Civil Engineering
Food Science
ISBN 3-031-30329-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910734826303321
Ferro Vito  
Cham : , : Springer International Publishing : , : Imprint : Springer, , 2023
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Air Force facility energy
Air Force facility energy
Pubbl/distr/stampa Tyndall AFB, Fla., : Air Force Civil Engineer Support Agency
Descrizione fisica electronic text, volumes : HTML, digital, PDF files
Disciplina 624
Soggetto topico Military bases - Power supply - United States
Civil engineering - United States
Armed Forces - Military construction operations
Civil engineering
Soggetto genere / forma Periodicals.
Formato Materiale a stampa
Livello bibliografico Periodico
Lingua di pubblicazione eng
Record Nr. UNINA-9910693431603321
Tyndall AFB, Fla., : Air Force Civil Engineer Support Agency
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Analisi Dimensionale e Modellistica Fisica [[electronic resource] ] : Principi e applicazioni alle Scienze Ingegneristiche / / by Sandro Longo
Analisi Dimensionale e Modellistica Fisica [[electronic resource] ] : Principi e applicazioni alle Scienze Ingegneristiche / / by Sandro Longo
Autore Longo Sandro
Edizione [1st ed. 2011.]
Pubbl/distr/stampa Milano : , : Springer Milan : , : Imprint : Springer, , 2011
Descrizione fisica 1 online resource (369 p.)
Disciplina 515/.782/0245
Collana Collana di Ingegneria
Soggetto topico Civil engineering
Fluids
Civil Engineering
Fluid- and Aerodynamics
Science, Humanities and Social Sciences, multidisciplinary
ISBN 88-470-1872-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione ita
Nota di contenuto Title Page; Copyright Page; Prefazione; Table of Contents; 1 L'Analisi Dimensionale; 1.1 La classificazione delle grandezze fisiche; 1.2 I sistemi di unita di misura; 1.2.1 I sistemi monodimensionali; 1.2.2 I sistemi omnidimensionali; 1.2.3 I sistemi multidimensionali; 1.2.4 La dimensione di una grandezza fisica e la trasformazione delle unit`a di misura; 1.2.5 Alcune regole di scrittura; 1.3 Il principio dell'omogeneit`a dimensionale; 1.3.1 L'aritmetica del calcolo dimensionale; 1.4 La struttura dell'equazione tipica sulla base dell'Analisi Dimensionale; 1.4.1 Il metodo di Rayleigh
1.4.2 Il metodo di Buckingham (Teorema delΠ)1.4.2.1 La definizione di una base dimensionale; 1.4.2.2 La completezza dell'insieme di gruppi adimensionali; 1.4.3 Un'ulteriore dimostrazione del Teorema di Buckingham; 1.4.4 Un corollario del Teorema di Buckingham; 1.4.5 Il criterio della proporzionalit`a lineare; 2 I metodi matriciali nell'Analisi Dimensionale; 2.1 La formalizzazione dei metodi matriciali; 2.1.1 Un'ulteriore generalizzazione della tecnica matriciale per il calcolo di monomi a dimensione non nulla; 2.1.2 Il numero di soluzioni indipendenti
2.1.2.1 Gli esponenti selezionabili o vincolati dei monomi dimensionali2.1.3 Alcune proprieta dei gruppi dimensionali e adimensionali; 2.2 La riduzione del numero di gruppi adimensionali; 2.2.1 La vettorializzazione e la discriminazione delle grandezze; 2.2.2 L'incremento del numero delle grandezze fondamentali; 2.2.3 Il cambiamento delle grandezze fondamentali e l'accorpamento delle variabili; 3 La simmetria e le trasformazioni affini; 3.1 La struttura delle funzioni dei gruppi adimensionali; 3.1.1 La struttura della funzione dei gruppi adimensionali forzatamente monomia
3.1.2 La struttura della funzione dei gruppi adimensionali forzatamente non monomia3.1.3 La struttura della funzione dei gruppi adimensionali possibilmente monomia; 3.2 La rilevanza dimensionale e fisica delle variabili; 3.2.1 Le variabili dimensionalmente irrilevanti; 3.2.1.1 L'effetto cascata nelle variabili dimensionalmente irrilevanti; 3.2.2 Le variabili fisicamente irrilevanti; 3.2.2.1 L'irrilevanza fisica a seguito di irrilevanza dimensionale; 3.2.2.2 L'irrilevanza fisica a seguito di ragionamento euristico
3.2.2.3 L'irrilevanza fisica a seguito di esperimenti combinati con l'interpretazione dei dati3.3 Il Teorema di Buckingham e le trasformazioni affini; 3.3.1 L'adimensionalizzazione delle equazioni algebriche e dei problemi differenziali; 3.4 L'uso della simmetria per specificare la forma della funzione; 3.5 Alcuni suggerimenti per l'individuazione dei gruppi adimensionali; 4 La teoria della similitudine e le applicazioni ai modelli; 4.1 I modelli fisici e la similitudine; 4.1.1 La similitudine geometrica; 4.1.2 La similitudine cinematica; 4.1.3 La similitudine dinamica
4.1.4 La similitudine dinamica per sistemi di particelle materiali interagenti
Record Nr. UNINA-9910484685203321
Longo Sandro  
Milano : , : Springer Milan : , : Imprint : Springer, , 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Analysis of Piezoelectric Semiconductor Structures [[electronic resource] /] / by Jiashi Yang
Analysis of Piezoelectric Semiconductor Structures [[electronic resource] /] / by Jiashi Yang
Autore Yang Jiashi
Edizione [1st ed. 2020.]
Pubbl/distr/stampa Cham : , : Springer International Publishing : , : Imprint : Springer, , 2020
Descrizione fisica 1 online resource (233 pages)
Disciplina 621.38152
Soggetto topico Semiconductors
Mechatronics
Optical materials
Electronic materials
Mechanics
Mechanics, Applied
Civil engineering
Electronics
Microelectronics
Optical and Electronic Materials
Solid Mechanics
Civil Engineering
Electronics and Microelectronics, Instrumentation
ISBN 3-030-48206-5
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Chapter 1. Macroscopic Theory -- Chapter 2. Exact Solutions -- Chapter 3. Extension of Rods -- Chapter 4. Bending of Beams -- Chapter 5. Extension and Bending of Plates -- Chapter 6. Composite Structures -- Chapter 7. Thermal Effects.
Record Nr. UNINA-9910409987103321
Yang Jiashi  
Cham : , : Springer International Publishing : , : Imprint : Springer, , 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
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