Generalized transport equation

Aug 01, 2014

50 likes | 303 Vues

Generalized transport equation. Reynolds decomposition: Define “macroscopic”, bulk velocity u=<v> Then v= u+c Where c is fluctuation of velocity. Note: <c>=0, <v>=< u+c >. Multi-fluid equations.

Share Presentation

Embed Code

Link

define
energy equation
heat flux
fluid equations
bulk velocity u
particle type

izzy

Télécharger la présentation

Generalized transport equation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

Generalized transport equation Reynolds decomposition: Define “macroscopic”, bulk velocity u=<v> Then v=u+c Where c is fluctuation of velocity. Note: <c>=0, <v>=<u+c>
Multi-fluid equations After substituting Χ’s into the generalized transport equation and some work we get the multi-fluid equations for particle type a: Continuity equation Momentum equation Energy equation Where: Heat flux Pressure tensor Scalar pressure Energy density

Generalized Coordinates

Strange place to start looking for a minimization scheme, but:. Generalized Coordinates. Why change coordinates?. Sometimes one set of coordinates are easier to use in solving a problems than another. Can make use of conservation principles.

4.07k views • 19 slides

Generalized Autofocus

Generalized Autofocus. Daniel Vaquero 1,2 , Natasha Gelfand 1 , Marius Tico 1 , Kari Pulli 1 , Matthew Turk 2 1 Nokia Research Center, Palo Alto 2 University of California, Santa Barbara. All-in-Focus Imaging. Images focused at different distances (focal stack). What is our work about?.

180 views • 8 slides

CH.III : APPROXIMATIONS OF THE TRANSPORT EQUATION

CH.III : APPROXIMATIONS OF THE TRANSPORT EQUATION. ONE SPEED BOLTZMANN EQUATION ONE SPEED TRANSPORT EQUATION INTEGRAL FORM RECIPROCITY THEOREM AND COROLLARIES DIFFUSION APPROXIMATION CONTINUITY EQUATION DIFFUSION EQUATION BOUNDARY CONDITIONS VALIDITY CONDITIONS

542 views • 31 slides

Glossary of Technical Terms Generalized Lotka-Volterra Equation:

Competing Species Team Members: David De Cesari (Engineering Mathematics), Jennifer Kanemaru (Mathematics), Daniel Weiss (Aerospace Engineering, Mathematics), Carolyn Wise (Mathematics) . Project Description: In this project we seek to: model coexistence and chaos in ecosystems,

241 views • 1 slides

Generalized Stabilizers

Generalized Stabilizers. Ted Yoder. Quantum/Classical Boundary. How do we study the power of quantum computers compared to classical ones? Compelling problems Shor’s factoring Grover’s search Oracle separations Quantum resources Entanglement Discord Classical simulation. Schrödinger.

327 views • 15 slides

Oxygen Content Equation and Oxygen Transport

Oxygen Content Equation and Oxygen Transport. The Key to Blood Gas Interpretation: Four Equations, Three Physiologic Processes. Equation Physiologic Process 1) PaCO2 equation Alveolar ventilation 2) Alveolar gas equation Oxygenation 3) Oxygen content equation Oxygenation

1.42k views • 27 slides

Generalized heat transfer coefficient Generalized Admittance Generalized Impedance

HOW TO GET AN ALTERNATIVE AND RELEVANT REPRESENTATION TO THE HEAT TRANSFER COEFFICIENT FOR DESCRIBING THE HEAT TRANSFER BETWEEN A DEVELOPED FLUID FLOW AND A NON-ISOTHERMAL WALL IN TRANSIENT REGIME. Generalized heat transfer coefficient Generalized Admittance Generalized Impedance.

684 views • 47 slides

Boltzmann transport equation and H-theorem

Boltzmann transport equation and H-theorem. Aim of kinetic theory: find the distribution function . f or a given form of particle-particle interaction. e quilibrium distribution. Special case . e quilibrium thermodynamics. Find the equation of motion for the distribution function.

722 views • 5 slides

Quantum Master Equation Approach to Transport

Quantum Master Equation Approach to Transport. Wang Jian-Sheng. NUS, number one in Asia. This year’s QS university ranking has rated NUS a topmost in Asia. Department of Physics at NUS is top 32 (QS 2013) world-wide, with renounced research centers such as Graphene Research Center and CQT.

643 views • 36 slides

Generalized BPP

Generalized BPP. Guido Perboli (guido.perboli@polito.it) DAUIN - Politecnico di Torino. Problem. Set of items Volume v i Set of bins Maximum loadable volume V j Cost c j Use the mix of containers of minimum cost All the items are loaded

361 views • 28 slides

Holograpic Transport Coeffients Equation of State and Viscosities *)

Holograpic Transport Coeffients Equation of State and Viscosities *) (AdS/QCD). R. Yaresko, B. Kämpfer. Helmholtz-Zentrum Dresden-Rossendorf and Technische Universität Dresden. *) 1403.3581, 1306.0214. from Mocsy, Sorensen

470 views • 32 slides

Relativistic Transport Equation (present and the future perspectives)

Relativistic Transport Equation (present and the future perspectives). Theodoros Gaitanos, INFN, LNS-Catania. RBUU model Heavy ion collisions at SIS energies  How equilibrated is colliding matter? Does exist any chance to extract the EOS?

153 views • 7 slides

Boltzmann Transport Equation for Particle Transport

Boltzmann Transport Equation for Particle Transport. Distribution Function of Particles: f = f ( r , p , t ) --probability of particle occupation of momentum p at location r and time t. Equilibrium Distribution: f 0 , i.e. Fermi-Dirac for electrons, Bose-Einstein for phonons.

1.83k views • 7 slides

Boltzmann Transport Equation

Yoon kichul Department of Mechanical Engineering Seoul National University. Boltzmann Transport Equation. Multi-scale Heat Conduction. Contents. 1. What is the BTE?. 2. Derivation of the BTE. 3. Relaxation Time Approximation (RTA). 4. Equations from the BTE.

1.37k views • 18 slides

Towards an upscaled transport equation.

Towards an upscaled transport equation. Jesús Carrera, Jean-Raynald de Dreuzy, Marco Dentz Groundwater Hydrology Group (GHS), IDAEA, CSIC Barcelona, Spain. Context and acknowledgements. CIUDEN: Spanish government foundation to promote, among other things, Carbon Capture and Storage

501 views • 36 slides

Generalized Bargmann-Michel-Telegdi Equation @ Osaka U. Nov. 23 2013

Generalized Bargmann-Michel-Telegdi Equation @ Osaka U. Nov. 23 2013. Takeshi Fukuyama Osaka U. RCNP with Alexander Silenko (Belarus). Our target is to measure both aMDM and EDM of charged particle (especially ) in storage ring.

469 views • 36 slides

GENERALIZED? Bandwidth

GENERALIZED? Bandwidth . PCE WG , IETF 87, July 2013, Berlin RFC5440 - draft- ietf - pce - gmpls - pcep -extensions. BANDWITH What is the problem?. RFC5440, section 7.7 “The BANDWIDTH object body has a fixed length of 4 bytes .” RFC5440 defines 2 C-Types (1 and 2)

226 views • 6 slides

Boltzmann Transport Equation and Scattering Theory

Boltzmann Transport Equation and Scattering Theory. Dragica Vasileska. Content: Boltzmann Transport Equation Fermi’s Golden Rule Description of Various Scatte -ring Mechanisms. A. Boltzmann Transport Equation. A.1 Derivation of the Boltzmann Transport Equation

1.43k views • 60 slides

Holograpic Transport Coeffients Equation of State and Viscosities *)

325 views • 32 slides

The Boltzmann Transport Equation

The Boltzmann Transport Equation. Matt Krems Physics 211A Dec. 10, 2007. Introduction. Classical theory of transport processes based on the Boltzmann formalism The rate of electron collisions depends critically on the distribution of other electrons

460 views • 23 slides

Generalized Hooke’s Law and Anisotropic Wave Equation

Generalized Hooke’s Law and Anisotropic Wave Equation. Outline. Generalized Hooke’s Law Hooke+Newton =Anisotropic Wave Equation Isotropic Wave Equation P and S waves Summary Appendix. Cards are normal stiffer along 11 direction so stiffness c 11 > c 33. x3. x3. x1. x1.

800 views • 48 slides

More Related