UMT 511E - Metalurjistler için Taşınım Olayları (İng.)

Dersin Amaçları

Transport Phenomena is an engineering course designed to introduce students to the theory and applications of fluid mechanics, also known as momentum transport. The principal means of analyzing and understanding fluid motion comes from mass, momentum and energy balances applied to fluids. The first part of the course will focus on macroscopic or integral balances, predominantly those of mass, momentum, and mechanical energy, applied to finite control volumes of fluids. This part provides the most practical content of the course, as the students will learn general design principles of flow in pipes and pipe networks. The second part of the course will focus on microscopic or differential balances, predominantly those of mass and momentum, applied to differential (infinitesimal) volumes of fluids. This part leads to fundamental differential equations, the Equation of Continuity and the Navier-Stokes equations, which govern all (actually, nearly all) fluid motion, and whose application can provide substantial information on fluid velocity patterns, pressure distributions and other stresses arising from or associated with the flow.

Dersin Tanımı

Introduction, Dimensions and Units of Measurement, The concept of viscosity, Steady-state unidirectional flow, The differential equations of flow, Applications of differential equations of flow, Turbulent flow, Overall material and energy balance in fluid flow, Applications of the overall energy balance, Thermal conductivity and steady state conduction, Unsteady state conduction of heat, Heat transfer by convection, Heat transfer by radiation, Mass diffusivity: steady state diffusion, Unsteady state diffusion, Mass transfer by convection, Mass transfer models and correlations, Chemical rate phenomena, Applications of rate phenomena theory, Flow behavior in chemical reactors.