0.10 Numerical simulation

Transport phenomena Page 1 / 8

The classical exact solutions of the Navier-Stokes equations are valuable for the insight they give and as an exact result that any approximate method should be able to duplicate to an acceptable precision. However, if we limit ourselves to exact solutions or even approximate perturbation or series solutions, a vast number of important engineering problems will be beyond reach. To meet this need, a number of computational fluid mechanics (CFM) codes have become commercially available. A student could use the CFM code as a virtual experiment to learn about fluid mechanics. While this may be satisfactory for someone who will become a design engineer, this is not sufficient for the researcher who may wish to solve a problem that has not been solved before. The user usually has to treat the CFM code as a "black box" and accept the result of the simulation as correct. The researcher must always be questioning if any computed result is valid and if not, what must be done to make it valid. Therefore I believe Ph.D. students should know how to develop their own numerical simulators rather than be just a user.

We will start with a working FORTAN and MATLAB code for solving very simple, generic problems in 2-D. The student should be able to examine each part of the code and understand everything with the exception of the algorithm for solving the linear system of equations. Then the student will change boundary conditions, include transient and nonlinear capabilities, include curvilinear coordinates, and compute pressure and stresses.

The stream function - vorticity method

Two-dimensional flow of an incompressible, Newtonian fluid can be formulated with the stream function and vorticity as dependent variables.

\begin{matrix} \frac{\partial^{2} ψ}{\partial x^{2}} + \frac{\partial^{2} ψ}{\partial y^{2}} = - w \\ \frac{D w}{D t} = \frac{\partial w}{\partial t} + v_{x} \frac{\partial w}{\partial x} + v_{y} \frac{\partial w}{\partial y} = ν (\frac{\partial^{2} w}{\partial x^{2}} + \frac{\partial^{2} w}{\partial y^{2}}) \\ where \\ v = (v_{x}, v_{y}, 0) = \nabla \times A = (\frac{\partial ψ}{\partial y}, - \frac{\partial ψ}{\partial x}, 0), A = (0, 0, ψ) \\ w = (0, 0, w) = (0, 0, \frac{\partial v_{y}}{\partial x} - \frac{\partial v_{x}}{\partial y}) \end{matrix}

We will begin developing a generic code by assuming steady, creeping (zero Reynolds number) flow with specified velocity on the boundaries in a rectangular domain. The PDE are now,

\begin{matrix} \begin{matrix} \frac{\partial^{2} ψ}{\partial x^{2}} + \frac{\partial^{2} ψ}{\partial y^{2}} = - w \end{matrix} \\ \frac{\partial^{2} w}{\partial x^{2}} + \frac{\partial^{2} w}{\partial y^{2}} = 0 \end{matrix}, 0 < x < L_{x}, 0 < y < L_{y}, Re = 0

This is a pair of linear, elliptic PDEs. The boundary conditions with specified velocity are

\begin{matrix} v_{n o r m a l} = specified \\ v_{t a n g e n t i a l} = specified = O (U) \\ ψ_{B C} = \int_{b o u n d a r y}^{} v • n d s \\ w_{B C} = {(\nabla \times v|}_{b o u n d a r y} \end{matrix}

The boundary conditions at a plane of symmetry are

\begin{matrix} n • v = 0 \\ n • \nabla v = 0 \\ ψ = constant \\ w = 0 \end{matrix}

The PDE and definitions are made dimensionless with respect to reference quantities such that the variables are of the order of unity.

\begin{matrix} x * = \frac{x}{L_{x}}, y * = \frac{y}{L_{y}}, α = \frac{L_{x}}{L_{y}} \\ v * = \frac{v}{U}, ψ * = \frac{ψ}{ψ_{o}}, w * = \frac{w}{w_{o}} \\ \begin{matrix} \begin{matrix} [\frac{ψ_{o}}{L_{x}^{2} w_{o}}] \frac{\partial^{2} ψ *}{\partial x *^{2}} + [\frac{ψ_{o}}{L_{y}^{2} w_{o}}] \frac{\partial^{2} ψ *}{\partial y *^{2}} = - w * \end{matrix} \\ \frac{\partial^{2} w *}{\partial x *^{2}} + α^{2} \frac{\partial^{2} w *}{\partial y *^{2}} = 0 \end{matrix}, 0 < x * < 1, 0 < y * < 1 \\ v_{x} * = [\frac{ψ_{o}}{U L_{y}}] \frac{\partial ψ *}{\partial y *}, v_{y} * = - [\frac{ψ_{o}}{U L_{x}}] \frac{\partial ψ *}{\partial x *} \end{matrix}

We have four unspecified dimensionless groups and two unspecified reference quantities. We can specify two of the groups to equal unity and the other two are equal to the aspect ratio or its square.

\begin{matrix} [\frac{ψ_{o}}{L_{x}^{2} w_{o}}] = 1, [\frac{ψ_{o}}{U L_{x}}] = 1 \\ \Rightarrow ψ_{o} = L_{x} U, w_{o} = \frac{U}{L_{x}} \end{matrix}

The PDE and definitions with the * dropped are now as follows.

\begin{matrix} \begin{matrix} \begin{matrix} \frac{\partial^{2} ψ}{\partial x^{2}} + α^{2} \frac{\partial^{2} ψ}{\partial y^{2}} = - w \end{matrix} \\ \frac{\partial^{2} w}{\partial x^{2}} + α^{2} \frac{\partial^{2} w}{\partial y^{2}} = 0 \end{matrix}, 0 < x < 1, 0 < y < 1 \\ v_{x} = α \frac{\partial ψ}{\partial y}, v_{y} = - \frac{\partial ψ}{\partial x} \\ w = \frac{\partial v_{y}}{\partial x} - α \frac{\partial v_{x}}{\partial y} \end{matrix}

Finite difference approximation

The PDE and BC will be solved using a finite difference method. A grid point formulation rather than a grid block formulation will be used since the dependent variables are specified at the boundaries rather than their flux or normal derivative. The computation domain will be discretized such that the boundary conditions and dependent variables are evaluated at $x_{1}, x_{2},, x_{J M 1}, x_{J M A X}$ and $y_{1}, y_{2},, y_{J M 1}, y_{J M A X}$ . The finite difference grid appears as follows.

Questions & Answers

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studies of microbes

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they make spores

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food webs brings about an infection as an individual depends on number of diseased foods or carriers dully.

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Assimilatory nitrate reduction is a process that occurs in some microorganisms, such as bacteria and archaea, in which nitrate (NO3-) is reduced to nitrite (NO2-), and then further reduced to ammonia (NH3).

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Examples of thermophilic organisms

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Give Examples of thermophilic organisms

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Prevent foreign microbes to the host

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they provide healthier benefits to their hosts

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They are friends to host only when Host immune system is strong and become enemies when the host immune system is weakened . very bad relationship!

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cell is the smallest unit of life

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Innocent

cell is the structural and functional unit of life

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is the fundamental units of Life

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Micheal Reply

There are nothing like emergency disease but there are some common medical emergency which can occur simultaneously like Bleeding,heart attack,Breathing difficulties,severe pain heart stock.Hope you will get my point .Have a nice day ❣️

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en français

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Many sites of the body have it Skin Nasal cavity Oral cavity Gastro intestinal tract

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skin

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skin,Oral,Nasal,GIt

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all

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by fussion

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part of a tissue or an organ being wounded or bruised.

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Binomial nomenclature

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Source: OpenStax, Transport phenomena. OpenStax CNX. May 24, 2010 Download for free at http://cnx.org/content/col11205/1.1

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