Description

a- Knowledge and Understanding Through knowledge and understanding, students will be able to:rna.p.1) Fundamentals of thermal and fluid processesrn rnb- Intellectual Skills Through intellectual skills, students will be able to:rnc- Professional Skills Through professional and practical skills, students will be able to:rnc.2) Professionally merge the engineering knowledge, understanding, and feedback to improve design, rnProducts and/or servicesrnc.5) Use computational facilities and techniques, measuring instruments, workshops and laboratory equipment to design experiments, collect, analyze and interpret resultsrnc.p.3) Write computer programs pertaining to mechanical power and energy engineeringrnc.p.4) Describe the basic Thermal and fluid processes mathematically and use the computer software rnFor their simulation and analysisrn rnd- General Skills Through general and transferable skills, students will be able to:rnd.9) Refer to relevant literaturern rn

Program

Bachelor degree in Mechanical Engineering (Automotive Engineering)

Objectives

  • • This course presents on elementary treatment of the principles of heat transfer

Textbook

Data will be available soon!

Course Content

content serial Description
1Week Number1: Review of Heat Transfer
2Week Number2: Steady State Conduction in One Dimension
3Week Number3: General Conduction Equations ? External Surfaces
4Week Number4: General Conduction Equations ? External Surfaces
5Week Number 5: Steady State Conduction in Two Dimensions
6Week Number6: Steady State Conduction in Two Dimensions
7Week Number7: Principles of connections - Quiz
8Week Number8: Principles of connections
9Week Number9: Empirical Relations for Forced Connection
10Week Number10: Empirical Relations for Forced Convection
11Week Number11: Empirical Relations for Forced Convection
12Week Number12: Natural Convection Systems
13Week Number13: Radiation Heat Transfer
14Week Number14: Design of surface heat exchangers
15Week Number15: Design of compact heat exchangers
16Week Number16: Final Examination
1Week Number1: Review of Heat Transfer
2Week Number2: Steady State Conduction in One Dimension
3Week Number3: General Conduction Equations ? External Surfaces
4Week Number4: General Conduction Equations ? External Surfaces
5Week Number 5: Steady State Conduction in Two Dimensions
6Week Number6: Steady State Conduction in Two Dimensions
7Week Number7: Principles of connections - Quiz
8Week Number8: Principles of connections
9Week Number9: Empirical Relations for Forced Connection
10Week Number10: Empirical Relations for Forced Convection
11Week Number11: Empirical Relations for Forced Convection
12Week Number12: Natural Convection Systems
13Week Number13: Radiation Heat Transfer
14Week Number14: Design of surface heat exchangers
15Week Number15: Design of compact heat exchangers
16Week Number16: Final Examination
1Week Number1: Review of Heat Transfer
2Week Number2: Steady State Conduction in One Dimension
3Week Number3: General Conduction Equations ? External Surfaces
4Week Number4: General Conduction Equations ? External Surfaces
5Week Number 5: Steady State Conduction in Two Dimensions
6Week Number6: Steady State Conduction in Two Dimensions
7Week Number7: Principles of connections - Quiz
8Week Number8: Principles of connections
9Week Number9: Empirical Relations for Forced Connection
10Week Number10: Empirical Relations for Forced Convection
11Week Number11: Empirical Relations for Forced Convection
12Week Number12: Natural Convection Systems
13Week Number13: Radiation Heat Transfer
14Week Number14: Design of surface heat exchangers
15Week Number15: Design of compact heat exchangers
16Week Number16: Final Examination
1Week Number1: Review of Heat Transfer
2Week Number2: Steady State Conduction in One Dimension
3Week Number3: General Conduction Equations ? External Surfaces
4Week Number4: General Conduction Equations ? External Surfaces
5Week Number 5: Steady State Conduction in Two Dimensions
6Week Number6: Steady State Conduction in Two Dimensions
7Week Number7: Principles of connections - Quiz
8Week Number8: Principles of connections
9Week Number9: Empirical Relations for Forced Connection
10Week Number10: Empirical Relations for Forced Convection
11Week Number11: Empirical Relations for Forced Convection
12Week Number12: Natural Convection Systems
13Week Number13: Radiation Heat Transfer
14Week Number14: Design of surface heat exchangers
15Week Number15: Design of compact heat exchangers
16Week Number16: Final Examination

Markets and Career

  • Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
  • Electrical power feeding for civil and military marine and aviation utilities.
  • Electrical works in construction engineering.

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