Fuel cell systems explained / James Larminie, Andrew Dicks |
Autore | Larminie, James |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | Chichester, West Sussex : J. Wiley, c2003 |
Descrizione fisica | xxii, 406 p. : ill. ; 24 cm |
Disciplina | 621.31 |
Altri autori (Persone) | Dicks, Andrewauthor |
Soggetto topico | Fuel cells |
ISBN | 047084857X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISALENTO-991001914119707536 |
Larminie, James
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Chichester, West Sussex : J. Wiley, c2003 | ||
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Lo trovi qui: Univ. del Salento | ||
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Fundamental principles of polymeric materials / Stephen L. Rosen |
Autore | Rosen, Stephen L. |
Edizione | [2. ed] |
Pubbl/distr/stampa | New York, : J. Wiley, ©1993 |
Descrizione fisica | XVI, 420 p. ; 25 cm. |
Disciplina | 668.9 |
Collana | SPE monographs |
Soggetto topico | Polimeri |
ISBN | 0471575259 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNICAS-PUV0122375 |
Rosen, Stephen L.
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New York, : J. Wiley, ©1993 | ||
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Lo trovi qui: Univ. di Cassino | ||
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Fundamentals of earthquake engineering [[electronic resource] /] / Amr S. Elnashai, Luigi Di Sarno |
Autore | Elnashai Amr S |
Pubbl/distr/stampa | Chichester, West Sussex, U.K., : J. Wiley, c2008 |
Disciplina | 624.1/762 |
Soggetto topico | Earthquake engineering |
Soggetto genere / forma | Electronic books. |
ISBN | 0-470-02486-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910144432403321 |
Elnashai Amr S
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Chichester, West Sussex, U.K., : J. Wiley, c2008 | ||
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Lo trovi qui: Univ. Federico II | ||
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Fundamentals of exploratory analysis of variance / edited by David C. Hoaglin, Frederick Mosteller, John W. Tukey |
Pubbl/distr/stampa | New York \etc.!, : J. Wiley, c1991 |
Descrizione fisica | XVII, 430 p. ; 24 cm. |
Disciplina | 519.538 |
Collana | Wiley series in probability and mathematical statistics |
Soggetto topico | Analisi della varianza |
ISBN | 0471527351 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISANNIO-MIL0150985 |
New York \etc.!, : J. Wiley, c1991 | ||
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Lo trovi qui: Univ. del Sannio | ||
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Fundamentals of flowcharting / Thomas J. Schriber |
Autore | SCHRIBER, Thomas J. |
Pubbl/distr/stampa | New York [etc.] : J. Wiley, 1969 |
Descrizione fisica | VIII, 127 p. ; 28 cm |
Disciplina | 330.0151 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-990002341980203316 |
SCHRIBER, Thomas J.
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New York [etc.] : J. Wiley, 1969 | ||
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Lo trovi qui: Univ. di Salerno | ||
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Fundamentals of fluid mechanics and transport phenomena [[electronic resource] /] / Jean-Laurent Peube |
Autore | Peube J.-L (Jean-Laurent) |
Pubbl/distr/stampa | London, : ISTE Ltd. |
Descrizione fisica | 1 online resource (520 p.) |
Disciplina |
532
620.1/06 |
Collana | ISTE |
Soggetto topico |
Fluid mechanics
Transport theory |
Soggetto genere / forma | Electronic books. |
ISBN |
1-282-16530-5
9786612165306 0-470-61150-2 0-470-39415-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Fundamentals of Fluid Mechanics and Transport Phenomena; Table of Contents; Preface; Chapter 1. Thermodynamics of Discrete Systems; 1.1. The representational bases of a material system; 1.1.1. Introduction; 1.1.2. Systems analysis and thermodynamics; 1.1.3. The notion of state; 1.1.4. Processes and systems; 1.2. Axioms of thermostatics; 1.2.1. Introduction; 1.2.2. Extensive quantities; 1.2.3. Energy, work and heat; 1.3. Consequences of the axioms of thermostatics; 1.3.1. Intensive variables; 1.3.2. Thermodynamic potentials; 1.4. Out-of-equilibrium states; 1.4.1. Introduction
1.4.2. Discontinuous systems1.4.3. Application to heat engines; Chapter 2. Thermodynamics of Continuous Media; 2.1. Thermostatics of continuous media; 2.1.1. Reduced extensive quantities; 2.1.2. Local thermodynamic equilibrium; 2.1.3. Flux of extensive quantities; 2.1.4. Balance equations in continuous media; 2.1.5. Phenomenological laws; 2.2. Fluid statics; 2.2.1. General equations of fluid statics; 2.2.2. Pressure forces on solid boundaries; 2.3. Heat conduction; 2.3.1. The heat equation; 2.3.2. Thermal boundary conditions; 2.4. Diffusion; 2.4.1. Introduction; 2.4.2. Molar and mass fluxes 2.4.3. Choice of reference frame2.4.4. Binary isothermal mixture; 2.4.5. Coupled phenomena with diffusion; 2.4.6. Boundary conditions; Chapter 3. Physics of Energetic Systems in Flow; 3.1. Dynamics of a material point; 3.1.1. Galilean reference frames in traditional mechanics; 3.1.2. Isolated mechanical system and momentum; 3.1.3. Momentum and velocity; 3.1.4. Definition of force; 3.1.5. The fundamental law of dynamics (closed systems); 3.1.6. Kinetic energy; 3.2. Mechanical material system; 3.2.1. Dynamic properties of a material system; 3.2.2. Kinetic energy of a material system 3.2.3. Mechanical system in thermodynamic equilibrium: the rigid solid3.2.4. The open mechanical system; 3.2.5. Thermodynamics of a system in motion; 3.3. Kinematics of continuous media; 3.3.1. Lagrangian and Eulerian variables; 3.3.2. Trajectories, streamlines, streaklines; 3.3.3. Material (or Lagrangian) derivative; 3.3.4. Deformation rate tensors; 3.4. Phenomenological laws of viscosity; 3.4.1. Definition of a fluid; 3.4.2. Viscometric flows; 3.4.3. The Newtonian fluid; Chapter 4. Fluid Dynamics Equations; 4.1. Local balance equations; 4.1.1. Balance of an extensive quantity G 4.1.2. Interpretation of an equation in terms of the balance equation4.2. Mass balance; 4.2.1. Conservation of mass and its consequences; 4.2.2. Volume conservation; 4.3. Balance of mechanical and thermodynamic quantities; 4.3.1. Momentum balance; 4.3.2. Kinetic energy theorem; 4.3.3. The vorticity equation; 4.3.4. The energy equation; 4.3.5. Balance of chemical species; 4.4. Boundary conditions; 4.4.1. General considerations; 4.4.2. Geometric boundary conditions; 4.4.3. Initial conditions; 4.5. Global form of the balance equations; 4.5.1. The interest of the global form of a balance 4.5.2. Equation of mass conservation |
Record Nr. | UNINA-9910139489503321 |
Peube J.-L (Jean-Laurent)
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London, : ISTE Ltd. | ||
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Lo trovi qui: Univ. Federico II | ||
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Fundamentals of fluid mechanics and transport phenomena [[electronic resource] /] / Jean-Laurent Peube |
Autore | Peube J.-L (Jean-Laurent) |
Pubbl/distr/stampa | London, : ISTE Ltd. |
Descrizione fisica | 1 online resource (520 p.) |
Disciplina |
532
620.1/06 |
Collana | ISTE |
Soggetto topico |
Fluid mechanics
Transport theory |
ISBN |
1-282-16530-5
9786612165306 0-470-61150-2 0-470-39415-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Fundamentals of Fluid Mechanics and Transport Phenomena; Table of Contents; Preface; Chapter 1. Thermodynamics of Discrete Systems; 1.1. The representational bases of a material system; 1.1.1. Introduction; 1.1.2. Systems analysis and thermodynamics; 1.1.3. The notion of state; 1.1.4. Processes and systems; 1.2. Axioms of thermostatics; 1.2.1. Introduction; 1.2.2. Extensive quantities; 1.2.3. Energy, work and heat; 1.3. Consequences of the axioms of thermostatics; 1.3.1. Intensive variables; 1.3.2. Thermodynamic potentials; 1.4. Out-of-equilibrium states; 1.4.1. Introduction
1.4.2. Discontinuous systems1.4.3. Application to heat engines; Chapter 2. Thermodynamics of Continuous Media; 2.1. Thermostatics of continuous media; 2.1.1. Reduced extensive quantities; 2.1.2. Local thermodynamic equilibrium; 2.1.3. Flux of extensive quantities; 2.1.4. Balance equations in continuous media; 2.1.5. Phenomenological laws; 2.2. Fluid statics; 2.2.1. General equations of fluid statics; 2.2.2. Pressure forces on solid boundaries; 2.3. Heat conduction; 2.3.1. The heat equation; 2.3.2. Thermal boundary conditions; 2.4. Diffusion; 2.4.1. Introduction; 2.4.2. Molar and mass fluxes 2.4.3. Choice of reference frame2.4.4. Binary isothermal mixture; 2.4.5. Coupled phenomena with diffusion; 2.4.6. Boundary conditions; Chapter 3. Physics of Energetic Systems in Flow; 3.1. Dynamics of a material point; 3.1.1. Galilean reference frames in traditional mechanics; 3.1.2. Isolated mechanical system and momentum; 3.1.3. Momentum and velocity; 3.1.4. Definition of force; 3.1.5. The fundamental law of dynamics (closed systems); 3.1.6. Kinetic energy; 3.2. Mechanical material system; 3.2.1. Dynamic properties of a material system; 3.2.2. Kinetic energy of a material system 3.2.3. Mechanical system in thermodynamic equilibrium: the rigid solid3.2.4. The open mechanical system; 3.2.5. Thermodynamics of a system in motion; 3.3. Kinematics of continuous media; 3.3.1. Lagrangian and Eulerian variables; 3.3.2. Trajectories, streamlines, streaklines; 3.3.3. Material (or Lagrangian) derivative; 3.3.4. Deformation rate tensors; 3.4. Phenomenological laws of viscosity; 3.4.1. Definition of a fluid; 3.4.2. Viscometric flows; 3.4.3. The Newtonian fluid; Chapter 4. Fluid Dynamics Equations; 4.1. Local balance equations; 4.1.1. Balance of an extensive quantity G 4.1.2. Interpretation of an equation in terms of the balance equation4.2. Mass balance; 4.2.1. Conservation of mass and its consequences; 4.2.2. Volume conservation; 4.3. Balance of mechanical and thermodynamic quantities; 4.3.1. Momentum balance; 4.3.2. Kinetic energy theorem; 4.3.3. The vorticity equation; 4.3.4. The energy equation; 4.3.5. Balance of chemical species; 4.4. Boundary conditions; 4.4.1. General considerations; 4.4.2. Geometric boundary conditions; 4.4.3. Initial conditions; 4.5. Global form of the balance equations; 4.5.1. The interest of the global form of a balance 4.5.2. Equation of mass conservation |
Record Nr. | UNINA-9910831200303321 |
Peube J.-L (Jean-Laurent)
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London, : ISTE Ltd. | ||
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Lo trovi qui: Univ. Federico II | ||
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Fundamentals of fluid mechanics and transport phenomena [[electronic resource] /] / Jean-Laurent Peube |
Autore | Peube J.-L (Jean-Laurent) |
Pubbl/distr/stampa | London, : ISTE Ltd. |
Descrizione fisica | 1 online resource (520 p.) |
Disciplina |
532
620.1/06 |
Collana | ISTE |
Soggetto topico |
Fluid mechanics
Transport theory |
ISBN |
1-282-16530-5
9786612165306 0-470-61150-2 0-470-39415-3 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Fundamentals of Fluid Mechanics and Transport Phenomena; Table of Contents; Preface; Chapter 1. Thermodynamics of Discrete Systems; 1.1. The representational bases of a material system; 1.1.1. Introduction; 1.1.2. Systems analysis and thermodynamics; 1.1.3. The notion of state; 1.1.4. Processes and systems; 1.2. Axioms of thermostatics; 1.2.1. Introduction; 1.2.2. Extensive quantities; 1.2.3. Energy, work and heat; 1.3. Consequences of the axioms of thermostatics; 1.3.1. Intensive variables; 1.3.2. Thermodynamic potentials; 1.4. Out-of-equilibrium states; 1.4.1. Introduction
1.4.2. Discontinuous systems1.4.3. Application to heat engines; Chapter 2. Thermodynamics of Continuous Media; 2.1. Thermostatics of continuous media; 2.1.1. Reduced extensive quantities; 2.1.2. Local thermodynamic equilibrium; 2.1.3. Flux of extensive quantities; 2.1.4. Balance equations in continuous media; 2.1.5. Phenomenological laws; 2.2. Fluid statics; 2.2.1. General equations of fluid statics; 2.2.2. Pressure forces on solid boundaries; 2.3. Heat conduction; 2.3.1. The heat equation; 2.3.2. Thermal boundary conditions; 2.4. Diffusion; 2.4.1. Introduction; 2.4.2. Molar and mass fluxes 2.4.3. Choice of reference frame2.4.4. Binary isothermal mixture; 2.4.5. Coupled phenomena with diffusion; 2.4.6. Boundary conditions; Chapter 3. Physics of Energetic Systems in Flow; 3.1. Dynamics of a material point; 3.1.1. Galilean reference frames in traditional mechanics; 3.1.2. Isolated mechanical system and momentum; 3.1.3. Momentum and velocity; 3.1.4. Definition of force; 3.1.5. The fundamental law of dynamics (closed systems); 3.1.6. Kinetic energy; 3.2. Mechanical material system; 3.2.1. Dynamic properties of a material system; 3.2.2. Kinetic energy of a material system 3.2.3. Mechanical system in thermodynamic equilibrium: the rigid solid3.2.4. The open mechanical system; 3.2.5. Thermodynamics of a system in motion; 3.3. Kinematics of continuous media; 3.3.1. Lagrangian and Eulerian variables; 3.3.2. Trajectories, streamlines, streaklines; 3.3.3. Material (or Lagrangian) derivative; 3.3.4. Deformation rate tensors; 3.4. Phenomenological laws of viscosity; 3.4.1. Definition of a fluid; 3.4.2. Viscometric flows; 3.4.3. The Newtonian fluid; Chapter 4. Fluid Dynamics Equations; 4.1. Local balance equations; 4.1.1. Balance of an extensive quantity G 4.1.2. Interpretation of an equation in terms of the balance equation4.2. Mass balance; 4.2.1. Conservation of mass and its consequences; 4.2.2. Volume conservation; 4.3. Balance of mechanical and thermodynamic quantities; 4.3.1. Momentum balance; 4.3.2. Kinetic energy theorem; 4.3.3. The vorticity equation; 4.3.4. The energy equation; 4.3.5. Balance of chemical species; 4.4. Boundary conditions; 4.4.1. General considerations; 4.4.2. Geometric boundary conditions; 4.4.3. Initial conditions; 4.5. Global form of the balance equations; 4.5.1. The interest of the global form of a balance 4.5.2. Equation of mass conservation |
Record Nr. | UNINA-9910841586503321 |
Peube J.-L (Jean-Laurent)
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London, : ISTE Ltd. | ||
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Lo trovi qui: Univ. Federico II | ||
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Fundamentals of heat and mass transfer / Frank P. Incropera, David P. Dewitt |
Autore | Incropera, Frank P. |
Edizione | [5. ed] |
Pubbl/distr/stampa | New York \etc.!, : J. Wiley, c2002 |
Descrizione fisica | XIX, 981 p. ; 26 cm. |
Disciplina |
621.402
621.4022 |
Altri autori (Persone) | Dewitt, David P. |
Soggetto topico | Calore - Trasmissione |
ISBN | 0471386502 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISANNIO-PUV0810195 |
Incropera, Frank P.
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New York \etc.!, : J. Wiley, c2002 | ||
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Lo trovi qui: Univ. del Sannio | ||
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Fundamentals of light sources and lasers [[electronic resource] /] / Mark Csele |
Autore | Csele Mark |
Pubbl/distr/stampa | Hoboken, N.J., : J. Wiley, c2004 |
Descrizione fisica | 1 online resource (362 p.) |
Disciplina |
621.36/6
621.366 |
Soggetto topico |
Light sources
Lasers |
ISBN |
1-280-55688-9
9786610556885 0-471-67522-9 0-471-67521-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
FUNDAMENTALS OF LIGHT SOURCES AND LASERS; CONTENTS; Preface; 1. Light and Blackbody Emission; 1.1 Emission of Thermal Light; 1.2 Electromagnetic Spectrum; 1.3 Blackbody Radiation and the Stefan-Boltzmann Law; 1.4 Wein's Law; 1.5 Cavity Radiation and Cavity Modes; 1.6 Quantum Nature of Light; 1.7 Electromagnetic Spectrum Revisited; 1.8 Absorption and Emission Processes; 1.9 Boltzmann Distribution and Thermal Equilibrium; 1.10 Quantum View of Blackbody Radiation; 1.11 Blackbodies at Various Temperatures; 1.12 Applications; 1.13 Absorption and Color; 1.14 Efficiency of Light Sources; Problems
2. Atomic Emission2.1 Line Spectra; 2.2 Spectroscope; 2.3 Einstein and Planck: E = hv; 2.4 Photoelectric Effect; 2.5 Atomic Models and Light Emission; 2.6 Franck-Hertz Experiment; 2.7 Spontaneous Emission and Level Lifetime; 2.8 Fluorescence; 2.9 Semiconductor Devices; 2.10 Light-Emitting Diodes; Problems; 3. Quantum Mechanics; 3.1 Limitations of the Bohr Model; 3.2 Wave Properties of Particles (Duality); 3.3 Evidence of Wave Properties in Electrons; 3.4 Wavefunctions and the Particle-in-a-Box Model; 3.5 Reconciling Classical and Quantum Mechanics; 3.6 Angular Momentum in Quantum States 3.7 Spectroscopic Notation and Electron Configuration3.8 Energy Levels Described by Orbital Angular Momentum; 3.9 Magnetic Quantum Numbers; 3.10 Direct Evidence of Momentum: The Stern-Gerlach Experiment; 3.11 Electron Spin; 3.12 Summary of Quantum Numbers; 3.13 Example of Quantum Numbers: The Sodium Spectrum; 3.14 Multiple Electrons: The Mercury Spectrum; 3.15 Energy Levels and Transitions in Gas Lasers; 3.16 Molecular Energy Levels; 3.17 Infrared Spectroscopy Applications; Problems; 4. Lasing Processes; 4.1 Characteristics of Coherent Light; 4.2 Boltzmann Distribution and Thermal Equilibrium 4.3 Creating an Inversion4.4 Stimulated Emission; 4.5 Rate Equations and Criteria for Lasing; 4.6 Laser Gain; 4.7 Linewidth; 4.8 Thresholds for Lasing; 4.9 Calculating Threshold Gain; Problems; 5. Lasing Transitions and Gain; 5.1 Selective Pumping; 5.2 Three- and Four-Level Lasers; 5.3 CW Lasing Action; 5.4 Thermal Population Effects; 5.5 Depopulation of Lower Energy Levels in Four-Level Lasers; 5.6 Rate Equation Analysis for Atomic Transitions; 5.7 Rate Equation Analysis for Three- and Four-Level Lasers; 5.8 Gain Revisited; 5.9 Saturation; 5.10 Required Pump Power and Efficiency 5.11 Output PowerProblems; 6. Cavity Optics; 6.1 Requirements for a Resonator; 6.2 Gain and Loss in a Cavity; 6.3 Resonator as an Interferometer; 6.4 Longitudinal Modes; 6.5 Wavelength Selection in Multiline Lasers; 6.6 Single-Frequency Operation; 6.7 Characterization of a Resonator; 6.8 Gaussian Beam; 6.9 Resonator Stability; 6.10 Common Cavity Configurations; 6.11 Spatial Energy Distributions: Transverse Modes; 6.12 Limiting Modes; 6.13 Resonator Alignment: A Practical Approach; Problems; 7. Fast-Pulse Production; 7.1 Concept of Q-Switching; 7.2 Intracavity Switches 7.3 Energy Storage in Laser Media |
Record Nr. | UNINA-9910146053803321 |
Csele Mark
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Hoboken, N.J., : J. Wiley, c2004 | ||
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Lo trovi qui: Univ. Federico II | ||
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