Integrating Real-Time Fluid Simulation with a Voxel Engine
... In the GPU compute fluid simulation process, several textures are associated with the compute shaders that can be either be the input or the output. Textures are defined for the speed, pressure and divergence. In detail, there are three velocity textures and two pressure textures, which deal with th ...
... In the GPU compute fluid simulation process, several textures are associated with the compute shaders that can be either be the input or the output. Textures are defined for the speed, pressure and divergence. In detail, there are three velocity textures and two pressure textures, which deal with th ...
1 VALVE CONTROLLED SYSTEMS 1 Load characteristics
... The radial clearance between the valve and its housing is carefully controlled in the manufacturing process to levels of around 2 micron. The leakage through this space, even at high pressures, is small but for applications where it is essential that the actuator remains in the selected position for ...
... The radial clearance between the valve and its housing is carefully controlled in the manufacturing process to levels of around 2 micron. The leakage through this space, even at high pressures, is small but for applications where it is essential that the actuator remains in the selected position for ...
the easter snake river plain aquifer case study - G-WADI
... the primary groundwater flow mechanisms because they act as a major conduit for water, dissolved matter and contaminants. Radiogenic isotope tracers can provide a unique “x-ray” photograph of the physical and chemical processes occurring in the aquifer that is not provided by the elemental solute co ...
... the primary groundwater flow mechanisms because they act as a major conduit for water, dissolved matter and contaminants. Radiogenic isotope tracers can provide a unique “x-ray” photograph of the physical and chemical processes occurring in the aquifer that is not provided by the elemental solute co ...
Long-term unsteadiness and large-scale structures in Rayleigh-Bénard convection
... is shown that the growth and decay of the rolls produce a well-defined period in the velocity components that is maintained for a very long time (∼ 1 × 104 s). Using a large number of PIV realisations, the structure and dynamics of the largescale circulation in the RB convection cell are shown in de ...
... is shown that the growth and decay of the rolls produce a well-defined period in the velocity components that is maintained for a very long time (∼ 1 × 104 s). Using a large number of PIV realisations, the structure and dynamics of the largescale circulation in the RB convection cell are shown in de ...
Microfluidics: Fluid physics at the nanoliter scale
... cases, the numbers are independent of length scale yet still have important implications and applications. We begin our review of each number with an intuitive, paradigmatic model example to illustrate the basic physics at hand with simple scaling arguments. Following each model example, we discuss ...
... cases, the numbers are independent of length scale yet still have important implications and applications. We begin our review of each number with an intuitive, paradigmatic model example to illustrate the basic physics at hand with simple scaling arguments. Following each model example, we discuss ...
The Establishment and Verification of 90° Elbow Pipe with Circular
... to increase gradually and reached the maximum 8008664.0Pa at the position of (α=25°, β=180°), then begins to decrease gradually. The concave edge (β=0°) of elbow pipe form low pressure area. The pressure begin to decrease rapidly from the entrance and reached the minimum 7985845.5Pa at the position ...
... to increase gradually and reached the maximum 8008664.0Pa at the position of (α=25°, β=180°), then begins to decrease gradually. The concave edge (β=0°) of elbow pipe form low pressure area. The pressure begin to decrease rapidly from the entrance and reached the minimum 7985845.5Pa at the position ...
9 Dynamics of Single Aerosol Particles
... Clearly, these differ only by a factor of 2. We will use the Reynolds number Re defined on the basis of the particle diameter in our subsequent discussion. When viscous forces dominate inertial forces, Re « 1, and the type of flow that results is called a low-Reynolds-number flow or creeping flow. I ...
... Clearly, these differ only by a factor of 2. We will use the Reynolds number Re defined on the basis of the particle diameter in our subsequent discussion. When viscous forces dominate inertial forces, Re « 1, and the type of flow that results is called a low-Reynolds-number flow or creeping flow. I ...
Flow “Fine” Synthesis: High Yielding and Selective
... Department of Chemistry, School of Science, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 1130033 (Japan) [email protected] The concept of flow “fine” synthesis, that is high yielding and selective organic synthesis by flow methods, will be presented. Flow methods have several ad ...
... Department of Chemistry, School of Science, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo 1130033 (Japan) [email protected] The concept of flow “fine” synthesis, that is high yielding and selective organic synthesis by flow methods, will be presented. Flow methods have several ad ...
On flows induced by electromagnetic fields
... The second part consists of a study of the Navier-Stokes equations. First the general equations are stated, after which simplifications are made. Since, for now, the fluid of main interest will be water, and the flow velocities are expected to be small compared to the speed of sound, the incompressi ...
... The second part consists of a study of the Navier-Stokes equations. First the general equations are stated, after which simplifications are made. Since, for now, the fluid of main interest will be water, and the flow velocities are expected to be small compared to the speed of sound, the incompressi ...
momentum and heat flux measurements in the exhaust of vasimr
... plasma exhaust with the plasma impacting the front face of the target. The target thickness or axial dimension was 2.4 or 3.2 mm while target diameters of 3.18, 5.1, 12.7, and 15.2 cm were tested. Heat flux data from the 12.7 cm and 15.2 cm diameter targets only are discussed in this paper. The reco ...
... plasma exhaust with the plasma impacting the front face of the target. The target thickness or axial dimension was 2.4 or 3.2 mm while target diameters of 3.18, 5.1, 12.7, and 15.2 cm were tested. Heat flux data from the 12.7 cm and 15.2 cm diameter targets only are discussed in this paper. The reco ...
references
... theory of electromagnetism, this work studies the flow pattern of a magnetic fluid in an annular space under the influence of an external magnetic field based on a computational study using FLUENT 6.2.16. In the annular space, there filled a magnetic fluid subjected to a condition where the inner cy ...
... theory of electromagnetism, this work studies the flow pattern of a magnetic fluid in an annular space under the influence of an external magnetic field based on a computational study using FLUENT 6.2.16. In the annular space, there filled a magnetic fluid subjected to a condition where the inner cy ...
General Semiconductor Packaging Process Flow
... An electrical failure is any unit that does not meet the electrical specifications defined for the device. Electrical testing consists of providing a series of electrical excitation (force) to the device under test (DUT) and measuring the response of the DUT. For every set of electrical stimuli (res ...
... An electrical failure is any unit that does not meet the electrical specifications defined for the device. Electrical testing consists of providing a series of electrical excitation (force) to the device under test (DUT) and measuring the response of the DUT. For every set of electrical stimuli (res ...
Scaling Property of the Relative Diffusion of Charged Particles in
... exponential regime. They pointed out that the Dupree regime in clumps may correspond to the scaling regime of general transient phenomena proposed by the present author. 4 ).5) Misguich and Balescu2 ) remarked also that if this analogy were confirmed, the scaling theory of the present author 4 ),5) ...
... exponential regime. They pointed out that the Dupree regime in clumps may correspond to the scaling regime of general transient phenomena proposed by the present author. 4 ).5) Misguich and Balescu2 ) remarked also that if this analogy were confirmed, the scaling theory of the present author 4 ),5) ...
CFD Introduction - Lyle School of Engineering
... CFD solutions rely upon physical models of real world processes (e.g. turbulence, compressibility, chemistry, multiphase flow, etc.). The solutions that are obtained through CFD can only be as accurate as the physical models on which they are based. ...
... CFD solutions rely upon physical models of real world processes (e.g. turbulence, compressibility, chemistry, multiphase flow, etc.). The solutions that are obtained through CFD can only be as accurate as the physical models on which they are based. ...
PDF (MSc Thesis) - DORAS
... does not to the best of my knowledge breach any law of copyright, and has not been taken from the work of others save and to the extent that such work has been cited and acknowledged within the text of my work. ...
... does not to the best of my knowledge breach any law of copyright, and has not been taken from the work of others save and to the extent that such work has been cited and acknowledged within the text of my work. ...
Turbulence
In fluid dynamics, turbulence or turbulent flow is a flow regime characterized by chaotic property changes. This includes low momentum diffusion, high momentum convection, and rapid variation of pressure and flow velocity in space and time.Flow in which the kinetic energy dies out due to the action of fluid molecular viscosity is called laminar flow. While there is no theorem relating the non-dimensional Reynolds number (Re) to turbulence, flows at Reynolds numbers larger than 5000 are typically (but not necessarily) turbulent, while those at low Reynolds numbers usually remain laminar. In Poiseuille flow, for example, turbulence can first be sustained if the Reynolds number is larger than a critical value of about 2040; moreover, the turbulence is generally interspersed with laminar flow until a larger Reynolds number of about 4000.In turbulent flow, unsteady vortices appear on many scales and interact with each other. Drag due to boundary layer skin friction increases. The structure and location of boundary layer separation often changes, sometimes resulting in a reduction of overall drag. Although laminar-turbulent transition is not governed by Reynolds number, the same transition occurs if the size of the object is gradually increased, or the viscosity of the fluid is decreased, or if the density of the fluid is increased. Nobel Laureate Richard Feynman described turbulence as ""the most important unsolved problem of classical physics.""