Dersin Bilgileri

Dersin Adı	Türkçe	Taşınım olayları
	İngilizce	Fund. of Transport Phenomena
Dersin Kodu	MET 317E	Kredi	Ders (saat/hafta)	Uygulama (saat/hafta)	Labratuvar (saat/hafta)
Dönem	-	2	3	1	-
Dersin Dili		İngilizce
Dersin Koordinatörü		Güldem Kartal Şireli
Dersin Amaçları		The objective of this engineering course is to provide to the student a sufficient background to be able to understand the fundamental phenomena, governing equations and assumptions used in the analysis of transport processes. We address aspects of three fundamental transport processes, momentum, heat and mass. After completing the class, students will be able to develop a background in the transports phenomena which are significant to be successful in many theoretical and practical problems in the fields of the laboratory practices, pilot plants or industrial operations implementations
Dersin Tanımı		Introduction and basic concepts, Dimensions and units of measurement, General overview of transport phenomena including various applications, Types of fluid flow and Reynolds number, The concept of viscosity and Viscosity calculations of fluids, Newton's law, Newtonian and Non-Newtonian fluids, Applications of differential equations of flow, Equation of continuity and Bernoulli's equation, Application of Navier-Stokes' equation , Heat transfer mechanisms, Fourier's law of heat conduction, Thermal conductivity of materials, Conduction of heat in solids, Definition of fluxes-Fick's laws, Diffusion in different media (solids, ceramics materials, liquids, etc.)
Dersin Çıktıları		Upon successful completion of this course, a student should be able to: 1. Ability to apply knowledge of mathematics (calculus and differential equations) and physics (laws of conservations of mass, momentum and energy) to transport phenomena related to materials, 2. Ability to analyze transport phenomena related to materials, by formulating the problems mathematically (into differential equations with proper boundary conditions) and solving them analytically or with the help of equation-solving tools, 3. Ability to design materials processing (e.g., casting, welding, heat treating, crystal growth and semiconductor processing) based on transport phenomena, 4. Knowledge of contemporary issues in transport phenomena in materials processing, e.g., computer simulation of materials production and processing.
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