034041 – Heat Transfer
Spring Semester 2016-2017
The course is an introductory exposition to engineering heat transfer. It is part of the engineering curriculum of students in disciplines such as, mechanical, aerospace, chemical biomedical and material engineering.
Concepts of control volume analysis, conservation laws of mass, momentum and energy, conduction, laminar and turbulent, convection and radiation will be developed and applied. The problems and examples will include theory and applications drawn from a wide range of engineering problems.
Thermodynamics 1 (034035 or equivalent).
Fluid Mechanics (034013 or equivalent).
Professor Chaim Gutfinger, email@example.com, http://meeng.technion.ac.il/members/chaim-gutfinger/
Office: Lady Davis, Room 501, phones: 829-2089, 050-643-7572.
Office hours: TBA, and by appointment.
Office: Energy Building, Room TBA
Office hours: TBA, and by appointment.
Lecture: 3 hours.
Recitation: 2 hours.
Required: “Introduction to Heat Transfer”, T. L. Bergman, A.S. Lavine, F. P. Incropera, and D.P. DeWitt, John Wiley & Sons, 6th ed., 2011.
Please log in to Technion Moodle (https://moodle.technion.ac.il/course/view.php?id=1314 ) for all materials related to this course.
(1) Students will learn theory and applications of engineering heat transfer.
(2) Students will be expected to be able to formulate and solve problems of engineering heat transfer.
|Week||Course Topics||Textbook Chapter|
|1||Introductory Material, Modes of Heat Transfer, Control Volume Analysis, Conduction – Fourier’s law||1,2|
|2||1D Steady State Conduction, Conduction with Thermal Energy Generation||3.1-3.5|
|3||Heat Transfer from Extended Surface, Fin Equation, Fin Performance||3.6-3.8|
|4||Solutions of 2D and 3D Steady State Conduction problems||4.1-4.3|
|5||Transient Conduction, Lumped Capacitance Method, Spatial Effects||5.1-5.8|
|6||Convection, Boundary layer, Laminar and Turbulent, Similarity, Reynolds Analogy||6|
|7||Convection, Flow over Flat Plate, Empirical Methods||7.1-7.3|
|8||Convection, External Flows, Flow over Cylinder, Sphere, Flow across banks of Tubes, Midterm Quiz||7.4 -7.7|
|9||Convection in Internal Flows, Laminar Flow in Circular Tubes, Empirical Correlations||8.1-8.7|
|10||Natural (Free) Convection|| 9.1-9.6
|12||Radiation, Black Body, Absorption, Reflection, Transmission||12|
|13||Radiation Exchange Between Surfaces||13|
Course Expectations & Grading
Homework – 10%:
12 homeworks will be assigned during the semester. The grade will be based on 10 best homeworks.
Midterm Quiz – 30%
Final Exam – 60%
The midterm quiz will be given during the 8th week of the semester.
The final exam will be at the end of the semester.
Assignments & Readings
12 Homeworks will be assigned over the course of the semester.
The reading assignments are listed above in the last column of the Course Topics table.
The strength of the university depends on academic and personal integrity. In this course, you must be honest and truthful. Ethical violations include cheating on exams, plagiarism, reuse of assignments, improper use of the Internet and electronic devices, unauthorized collaboration, alteration of graded assignments, forgery and falsification, lying, facilitating academic dishonesty, and unfair competition.
* Ability to apply mathematics, science and engineering principles (a).
* Ability to design and conduct experiments, analyze and interpret data (b).
* Ability to design a system, component, or process to meet desired needs (c).
* Ability to function on multidisciplinary teams (d).
* Ability to identify, formulate and solve engineering problems (e).
* Understanding of professional and ethical responsibility (f).
* Ability to communicate effectively (g).
* The broad education necessary to understand the impact of engineering solutions in a global and societal context (h).
* Recognition of the need for and an ability to engage in life-long learning (i).
* Knowledge of contemporary issues (j).
* Ability to use the techniques, skills and modern engineering tools necessary for engineering practice (k).