Welcome,
Guest
.
Login
.
Türkçe
NİNOVA
COURSES
HELP
ABOUT
Where Am I:
Ninova
/
Courses
/
Faculty of Aeronautics and Astronautics
/
UZB 232E
/
Course Informations
Return to Faculty
Home Page
Course Information
Course Weekly Lecture Plan
Course Evaluation Criteria
Course Information
Course Name
Turkish
Isı Transferi
English
Heat Transfer
Course Code
UZB 232E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
5
3
3
-
-
Course Language
English
Course Coordinator
Fırat Oğuz Edis
Course Objectives
1 .Explain the physical origins of heat transfer, identify important modes of heat transfer in a
given situation, and make appropriate assumptions
2.lmproving ability of solving the heat transfer problems analtically and numerically
Course Description
Brief history. Introduction to Heat transfer. Conservation of Energy.
Conduction Heat Transfer. Steady conduction. Transient conduction. The Critical Thickness of
insulation. Numerical Methods. Introduction to convection. The concept of thermal boundary
layer. Forced convection Heat exchangers. Radiation heat transfer: Blackbody radiation. Gray
surfaces. Stefan-Boltzmann law. Electrical analogy. View factor. Radiant heat transfer between
gray surfaces.
Course Outcomes
Student, who passed tha course saüsfactorily can:
Explain the physica! origtns of heat transfer, Identify important modes of heat transfer in a given
situation, amJ make appropriate assumptions- [a1,e1.h1,i1.jlj]
Calculate heat transfer rats and temperature distribution in steady-state one-dimensional heat
conduction problems. [a3,e3]
Sketch temperature profiles in one-dimenslonal heat transfer, showing the qualilative influence of
energy generation, non-planar georretry, or time dependence. [a2j]
4.. Catculate the rale of steady heat transfer in fins, and unsteady heat transferin lumpedcapacitance and serni-lnMte solid problems. [a3,e3]
5, Expiain the terms in dia governing eguations for convective heat transfer. {a1J 8. Öbtain tha
heat transfer coeffictents for forced convection from correlations.[b2J]
Estimate convective transfer rates on the basis of geometnc and dynamic similarity, and analogy
between different convective transport processes. [a3,e3]
Exptain how radiation can be described based on its wavetength, source, and direction, and
explain the baslc concepts of blackbody radiation, reflectivity, emissivity, and absorptivity for
surface radi
Appiy the Iaws of radiation to compute heat transfer rates for surfaces, such as black bodies and
diffuse gray surfaces, with appropriate approximations. [a3,e3J]
Apply the laws of radiation to compute heat transfer rates for surfaces, such as black bodies and
diffuse gray surfaces, with appropriate approximations. [a3,e3J]
Pre-requisite(s)
Required Facilities
Other
Textbook
Other References
Courses
.
Help
.
About
Ninova is an ITU Office of Information Technologies Product. © 2024