One-dimensional compressible flow /

One-Dimensional Compressible Flow explores the physical behavior of one-dimensional compressible flow. Various types of flow in one dimension are considered, including isentropic flow, flow through a convergent or a convergent-divergent duct with varying back pressure, flow with friction or heat tra...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Daneshyar, H.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Pergamon Press, 1976.
Edición:1st ed.
Colección:Thermodynamics and fluid mechanics series.
Pergamon international library of science, technology, engineering, and social studies.
Temas:
Aerodynamics.
Turbomachines > Aerodynamics.
Compressibility.
A�erodynamique.
Turbomachines > A�erodynamique.
Compressibilit�e.
aerodynamics.
TECHNOLOGY & ENGINEERING > Hydraulics.
Dichte > Physik
Fl�ussigkeit
Kompressible Str�omung
Str�omungsmechanik
Thermodynamik
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; One-Dimensional Compressible Flow; Copyright Page; Table of Contents; Preface; Notation; Chapter 1. Concepts from thermodynamics and fluid mechanics; 1.1 System, control volume and control surface; 1.2 The one-dimensional approximation; 1.3 Conservation of mass: Continuity equation; 1.4 Newton's second law of motion: Momentum equation; 1.5 The first law of thermodynamics; 1.6 The second law of thermodynamics; 1.7 Stagnation states; 1.8 Compressibility and speed of sound; 1.9 Classification of compressible flows: Mach number.
  • 1.10 One-dimensional steady flow equations in terms of Mach number1.11 Shock waves; Exercises; Chapter 2. Isentropic flow; 2.1 General features of steady, inviscid isentropic flow; 2.2 Applications of isentropic flow assumption; 2.3 Isentropic flow of a perfect gas; 2.4 Mass flow rate and choking in isentropic flow; 2.5 Thrust; 2.6 Tables for isentropic flow; Exercises; Chapter 3. Flow in a duct of variable cross-sectional area; 3.1 Convergent duct; 3.2 Convergent-divergent duct; 3.3 Calculation of flow in ducts of varying cross-sectional area; 3.4 Supersonic diffusers.
  • 3.5 Instability of a normal shock in a convergent passageExercises; Chapter 4. Flow with friction or heat transfer; 4.1 Introduction; 4.2 Adiabatic flow in a duct of constant cross-sectional area with friction; 4.3 Flow in a duct of constant cross-sectional area with heat transfer; Exercises; Chapter 5. One-dimensional unsteady flow; 5.1 Propagation of small disturbances; 5.2 Unsteady flow with finite changes in fluid properties; 5.3 Mathematical theory of one-dimensional homentropic unsteady flow; Exercises; Table 1. One-dimensional normal shock in a perfect gas.
  • Table 2. One-dimensional isentropic flow of a perfect gasTable 3. Fanno flow of a perfect gas
  • One-dimensional adiabatic flow of a perfect gas in a duct of constant cross-sectional area with friction; Table 4. Rayleigh flow of a perfect gas
  • One-dimensional, frictionless flow of a perfect gas in a duct of constant crosssectional area with stagnation temperature change; Table 5. The standard atmosphere; Table 6. Specific heat data; References; Index.

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