Theory of flows in compressible media with heat addition
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Theory of flows in compressible media with heat addition by JГјrgen Zierep

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Published by North Atlantic Treaty Organization, Advisory Group for Aerospace Research and Development in [Neuilly-sur-Seine, France] .
Written in English


  • Fluid dynamics.,
  • Heat -- Transmission -- Mathematical models.,
  • Mass transfer.,
  • Two-phase flow.

Book details:

Edition Notes

Statementby J. Zierep ; edited by D. Küchemann.
SeriesAGARDograph -- no. 191
ContributionsKüchemann, Christof., North Atlantic Treaty Organization. Advisory Group for Aerospace Research and Development. Fluid Dynamics Panel.
The Physical Object
Paginationiii,61 p. :
Number of Pages61
ID Numbers
Open LibraryOL20907944M

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This book deals with an introduction to the flow of compressible substances (gases). The main difference between compressible flow and almost incompressible flow is not the fact that compressibility has to be considered. Rather, the difference is in two phenomena that do not exist in incompressible flow. The first phenomenon is the very sharp discontinuity (jump) in the flow in properties/5(2). Fluid Mechanics by NPTEL. This note explains the following topics: Fluid Statics, Kinematics of Fluid, Conservation Equations and Analysis of Finite Control Volume, Equations of Motion and Mechanical Energy, Principles of Physical Similarity and Dimensional Analysis, Flow of Ideal Fluids Viscous Incompressible Flows, Laminar Boundary Layers, Turbulent Flow, Applications of Viscous Flows. Suitable as a text for advanced undergraduate and graduate students — as well as a reference for professionals — Mathematical Theory of Compressible Fluid Flow examines the fundamentals of high-speed flows, with detailed considerations of general theorems, conservation equations, waves, shocks, and nonisentropic by: Therefore, the lectures start with an elementary introduction in gasdynamics of compressible flows with given internal heat addition which allows discussion and explanation of important phenomena. Decoupling of heat addition and flow simplifies the problems essentially and illustrates the different dynamics of aperiodic and self-excited Author: G. H. Schnerr.

  This book, Fundamentals of Compressible Flow, describes the fundamentals of compressible flow phenomena for engineers and others. This book is designed to replace the book(s) or instructor's notes for the compressible flow in (mostly) undergraduate classes .   Purchase Mathematical Theory of Compressible Fluid Flow - 1st Edition. Print Book & E-Book. ISBN , Book Edition: 1. The subject of compressible flow or gas dynamics deals with the thermo-fluid dynamic problems of gases and vapours It is now an important part of the undergraduate and postgraduate curricula. Fundamentals of Compressible Flow covers this subject in fourteen well organised chapters in a lucid style. Anderson's book provides the most accessible approach to compressible flow for Mechanical and Aerospace Engineering students and professionals. In keeping with previous versions, the 3rd edition uses numerous historical vignettes that show the evolution of the by:

However, larger finite-amplitude pressure disturbances produce nonlinear effects. Compressible flows in ducts and nozzles may reach limiting mass-flow-rate values that cannot be exceeded even when the driving pressure difference is increased. Here friction and heat addition or extraction may have unexpected consequences. Download Citation | On , J. E. Shepherd and others published Compressible Flows | Find, read and cite all the research you need on ResearchGateAuthor: J. E. Shepherd. Compressible flow (or gas dynamics) is the branch of fluid mechanics that deals with flows having significant changes in fluid all flows are compressible, flows are usually treated as being incompressible when the Mach number (the ratio of the speed of the flow to the speed of sound) is less than (since the density change due to velocity is about 5% in that case). F/ow theory of incompressible media The first and most fundamental equation where we see the difference between a flow of compressible and incompressible media is the continuity equation which shows us that the volume flow {Qy) of an incompressible medium is constant throughout every cross section of the stream line (Fig. 1), and therefore (3 Cited by: