Fluid Mechanics for Chemical Engineers

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Fluid Mechanics for Chemical Engineers

Gas on the other hand is easy to compress, and fully expands to fill its container. There is thus no free surface. Consequently, an important characteristic of a fluid from the viewpoint of fluid mechanics is its compressibility. Another characteristic is its viscosity.

Whereas a solid shows its elasticity in tension, compression or shearing stress, a fluid does so only for compression. In other words, a fluid increases its pressure against compression, trying to retain its original volume.

This characteristic is called compressibility. Furthermore, a fluid shows resistance whenever two layers slide over each other.


Fluid Mechanics for Chemical Engineers

This characteristic is called viscosity. Fluid Mechanics is an essential subject in the study of the behavior of fluids equally when at rest and when in motion whether a house hold application such as the mains water supply, the natural gas supply or industrial such as the design of the body of an automotive car, airplane, train or the provision of electricity from a hydropower plant. Whereas the field of Fluid Mechanics is central to a wide variety of issues that are important not only technologically, but also sociologically. The objective of the course is to demonstrate the fundamentals of fluid mechanics and their applications in engineering.

The course will teach the solution of fluid mechanics problems based on the use of differential and integral mass, momentum and energy balances. The course assumes working knowledge of 1st year mechanics and calculus.

Fluid Mechanics

Bacon Distinguished Speaker Series. Personnel Instructor Carlos Escobedo Dupuis carlos. Specific course learning outcomes include: Calculate the pressure distribution in static fluids and the forces on submerged surfaces.

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Formulate mass, momentum and energy balances using the control volume and differential analysis of fluid flow. Identify boundary conditions and solve differential equations describing one-dimensional fluid flow. Determine frictional losses, size pipes and calculate pump power requirements in laminar and turbulent flow for viscous flow in closed conduits.

Calculate the drag forces on submerged objects in laminar and turbulent flow. Use dimensional analysis to derive relationships among process or system variables.

Fluid Mechanics for Chemical Engineers | Fluid Mechanics in Chemical Engineering | InformIT

Apply knowledge developed in steps 1, 2 and 4 above to measure pressure and flow rates, to estimate forces acting on pipes and joints, and to size pumps and pipes. Develop an understanding of the cost implications on developing a pumping process. Applies principles of fluid statics to find pressure distributions, measure pressure and calculate forces on submerged surfaces.

Formulates integral mass, momentum and energy balances and applies knowledge to do engineering calculations.