Introduction to fluid dynamics and simulations in COMSOL
... Materials (solids, liquids and gases) are composed of molecules separated by empty space. But the continuum model as a mathematical concept assumes that material exists as a continuous entity. It means that the matter in the body is continuously distributed and fills the entire region of space it oc ...
... Materials (solids, liquids and gases) are composed of molecules separated by empty space. But the continuum model as a mathematical concept assumes that material exists as a continuous entity. It means that the matter in the body is continuously distributed and fills the entire region of space it oc ...
Course Home - Haldia Institute of Technology
... ME201.1 Ability to understand the basics and meanings of thermodynamics and fluid. ME201.2 Ability to understand and introduce the laws of thermodynamics, their implications, and become familiar with their use and applications. ME201.3 Ability to understand work and heat transfer, enthalpy, entropy ...
... ME201.1 Ability to understand the basics and meanings of thermodynamics and fluid. ME201.2 Ability to understand and introduce the laws of thermodynamics, their implications, and become familiar with their use and applications. ME201.3 Ability to understand work and heat transfer, enthalpy, entropy ...
Fluidized Bed Characteristics
... 5. Using log-log scale, plot the left side of Eq.(1) versus [(1 - ε)/NRe]. ...
... 5. Using log-log scale, plot the left side of Eq.(1) versus [(1 - ε)/NRe]. ...
Basic fluid dynamics
... the molecules in a small volume of gas are rapidly replaced by other molecules, but concluded that it was still physically meaningful to speak about “material particles” in a statistical sense. This point of view is sometimes called the continuum hypothesis, allowing for the possibility that there c ...
... the molecules in a small volume of gas are rapidly replaced by other molecules, but concluded that it was still physically meaningful to speak about “material particles” in a statistical sense. This point of view is sometimes called the continuum hypothesis, allowing for the possibility that there c ...
Vertical structure of the atmosphere
... where v ≡ u , v , , with ω ≡ dp/dt is the "vertical velocity" in p-coordinate. Note that ω > 0 implies downward motion of the fluid parcel. The coordinate transformation would rely on the hydrostatic relation. For example, ...
... where v ≡ u , v , , with ω ≡ dp/dt is the "vertical velocity" in p-coordinate. Note that ω > 0 implies downward motion of the fluid parcel. The coordinate transformation would rely on the hydrostatic relation. For example, ...
Water and Methane in Shale Rocks: Flow Pattern
... a bridge of water molecules is formed between the two pore surfaces. Methane molecules form one gas bubble that is trapped within water. From this equilibrium configuration, we initiate the flow simulations by applying a constant acceleration to the fluid molecules along the X direction. The average ...
... a bridge of water molecules is formed between the two pore surfaces. Methane molecules form one gas bubble that is trapped within water. From this equilibrium configuration, we initiate the flow simulations by applying a constant acceleration to the fluid molecules along the X direction. The average ...
Key Points on Chapter 15: Fluid Mechanics • Pressure is force per
... where the pressure Pbot on the bottom of the cube is greater than the pressure Ptop on the top. Now suppose we replace the cubic volume of fluid with a cube of steel (same volume). The buoyant force on the steel is the same as the buoyant force was on the cube of fluid with the same dimensions. Thi ...
... where the pressure Pbot on the bottom of the cube is greater than the pressure Ptop on the top. Now suppose we replace the cubic volume of fluid with a cube of steel (same volume). The buoyant force on the steel is the same as the buoyant force was on the cube of fluid with the same dimensions. Thi ...
bioslurping – horizontal radial flow – theory and experimental
... discrepancy. However, in spite of the experimental problems, the theoretical equations derived can be the basis for analysis and design of a full-scale system and prediction of its performance. THEORY AND DEVELOPMENT OF EQUATIONS The basic equations applied to theoretical horizontal radial flow unde ...
... discrepancy. However, in spite of the experimental problems, the theoretical equations derived can be the basis for analysis and design of a full-scale system and prediction of its performance. THEORY AND DEVELOPMENT OF EQUATIONS The basic equations applied to theoretical horizontal radial flow unde ...
Chapter 2 - Mechanical Engineering
... TURBINE. As the fluid passes through the turbine, work is done against the blades, which are attached to the shaft. As a result, the shaft rotates, and the turbine produces work. THE WORK DONE IN A TURBINE IS POSITIVE since it is done by the fluid. ...
... TURBINE. As the fluid passes through the turbine, work is done against the blades, which are attached to the shaft. As a result, the shaft rotates, and the turbine produces work. THE WORK DONE IN A TURBINE IS POSITIVE since it is done by the fluid. ...
AP_Physics_B_-_Hydrostatics
... withstand a static shear stress. Unlike an elastic solid which responds to a shear stress with a recoverable deformation, a fluid responds with an irrecoverable flow. ...
... withstand a static shear stress. Unlike an elastic solid which responds to a shear stress with a recoverable deformation, a fluid responds with an irrecoverable flow. ...