By Kenneth Kuan-yun Kuo, Ragini Acharya
Detailed insurance of complicated combustion issues from the writer of rules of Combustion, moment Edition
Turbulence, turbulent combustion, and multiphase reacting flows became significant study themes in fresh a long time because of their program throughout different fields, together with power, setting, propulsion, transportation, business safeguard, and nanotechnology. lots of the wisdom collected from this learn hasn't ever been released in publication form—until now. basics of Turbulent and Multiphase Combustion provides updated, built-in assurance of the basics of turbulence, combustion, and multiphase phenomena in addition to priceless experimental strategies, together with non-intrusive, laser-based size thoughts, supplying an organization historical past in either modern and classical methods. starting with complete chapters on laminar premixed and non-premixed flames, this ebook takes a multiphase method, starting with extra universal themes and relocating directly to higher-level applications.
In addition, basics of Turbulent and Multiphase Combustion:
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Addresses seven easy topical components in combustion and multiphase flows, together with laminar premixed and non-premixed flames, thought of turbulence, turbulent premixed and non-premixed flames, and multiphase flows
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Covers spray atomization and combustion, solid-propellant combustion, homogeneous propellants, nitramines, reacting boundary-layer flows, unmarried full of life particle combustion, and granular mattress combustion
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Provides experimental setups and effects every time appropriate
Supported with numerous examples and difficulties in addition to a ideas handbook, basics of Turbulent and Multiphase Combustion is a vital source for pro engineers and researchers in addition to graduate scholars in mechanical, chemical, and aerospace engineering
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Additional resources for Fundamentals of Turbulent and Multi-Phase Combustion
Example text
4. As one can observe, there is a significant level of coupling between the intermediate solution from governing equations and the input parameters, such as reaction mechanism, turbulence closure conditions, and diffusion/transport mechanisms. The major output of the 10 INTRODUCTION AND CONSERVATION EQUATIONS Initial conditions and physical model of a given problem Reaction mechanism and kinetic data Empirical input data and/or correlations with a set of assumptions Boundary conditions Thermodynamic and transport properties Governing Equations: 1.
7. 51) ˜ 4 where n˜ represents molecules per unit volume, which is constant since the molar concentration C is constant and n˜ = C × NA . 7 Schematic representation of bulk and random velocities. DERIVATION OF SPECIES MASS CONSERVATION EQUATION 23 where dA is the diameter of the molecule A. 55) DAA∗ represents the mass diffusivity of a mixture of two species of rigid spheres of identical mass and diameter. 56) DIMENSIONLESS NUMBERS Mass diffusivity (D), momentum diffusivity (ν), and thermal diffusivity (α) all have the same dimensions.
If the fluid mixture in the control volume consists of N species, the body forces acting on different chemical species may differ. For example, some species could be ionized. If the reacting mixture flows through a magnetic field, these ionized species will experience Lorenz forces depending the degree of ionization and the mass of each species. 9. 10. 11, respectively. In each of these tables, there are two sets of momentum equations; the first set is written in terms of the viscous stress components, and the second set is written in terms of velocity components with the constant density and constant viscosity assumptions.