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Entropy Generators in Simplest Flow
P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Identification of the Fourth Irreversibility…
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Induction & Deduction of Concepts
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Discovery of Entropy Generator
Reversible flow : No vorticity generation between x & y,
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Discovery of Entropy Generator
Reversible flow : No vorticity generation between x & y,
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The Concrete Part With a vorticity generator between x & y,
The Normal Shock !!!! This equation relates the downstream Mach number to the upstream Mach Number. It can be used to derive pressure ratio, the temperature ratio, and density ratio.
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Nature of Normal Shock The flow across the shock is adiabatic and the stagnation temperature is constant across a shock. The effect of increase in entropy across a shock will result in a decrease of stagnation pressure. This feasible only if
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Change in entropy for an ideal gas
Obtain a pressure temperature relation across shock. &
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Shock is possible only in supersonic flows
Infeasible M
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General Adiabatic Flow
In general for an adiabatic Flow Field the Stagnation Temperature is defined by the relationship Stagnation Temperature is constant throughout an adiabatic flow field. • T0 is also sometimes referred to at Total Temperature • T is sometimes referred to as Static Temperature
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The Art of Reentry • The difference between Stagnation and Static temperatures is a measure of the Kinetic Energy of the flow Field. • Largely responsible for the high Level of heating that occurs on high speed aircraft or reentering space Vehicles … “stagnation” (total) pressure : Constant throughout Isentropic flow field.
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What was Stagnation Temperature At Columbia Breakup
Loss Of Signal at: 61.2 km altitude ~18.0 Mach Number T∞ ~ 243 K
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How Nature Makes the Impossible Events into Possible ?!?!?!
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Human Inventions : Protection of Space Vehicle
Loss Of Signal at: 61.2 km altitude ~18.0 Mach Number T∞ ~ 243 K
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The Ideal Simple Flow Reversible flow : No vorticity generation between x & y, An isentropic flow…. It was not till Daniel Bernoulli published his celebrated treatise in the eighteenth century that the science of fluid Flow really began to get off the ground – G.I. Taylor
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Bernoulli equation The Bernoulli equation can be obtained as a scalar product of the Euler differential equation and a differential displacement vector. For steady flow cases, the differential distance along the particle path is identical with a distance along a streamline. Thus, the multiplication of Euler equation with the differential displacement , gives:
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The terms in above equation must be rearranged as follows.
The first term starts with a scalar product of two vectors, eliminating the Kronecker delta and utilizing the Einstein summation convention results in: For Steady flow this will be zero. The temporal variation of kinetic entry is zero.
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Integrating above Equation results in:
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Along a Stream line For incompressible flows
which is the Bernoulli equation.
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The Greatest Natural Flow
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Barotropic Atmosphere
The term barotropic is derived from the Greek baro, relating to pressure, and tropic, changing in a specific manner: that is, in such a way that surfaces of constant pressure are coincident with surfaces of constant temperature or density. A barotropic atmosphere is one in which the density depends only on the pressure, ρ = ρ(p). The isobaric surfaces are also surfaces of constant density. For an ideal gas, the isobaric surfaces will also be isothermal if the atmosphere is barotropic. Along a isobar : The geostrophic wind is independent of height in a barotropic atmosphere.
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Geostrophic Wind Patterns
Geostrophic wind is defined a horizontal velocity field,
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Prediction of Simple Wind Patterns
The knowledge of the pressure distribution at any time determines the geostrophic wind. This is true for large-scale motions away from the equator. The geostrophic wind becomes the total horizontal velocity to within 10–15% in mid latitudes.
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