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KING ABDULAZIZ UNIVERSITY FACUTY OF ENGINEERING DEPARTMENT OF THERMAL ENGINEERING AND DESALINATION TECHNOLOGY COURSE DESIGN AND ASSESSMENT COURSE SYLLABUS 1. Course name and type: MEP 360, Heat Transfer (4:3, 2) Core Course (In-Department Compulsory) 2. Catalog course description: General Conduction equations, composite walls and cylinders. Heat generation. Heat transfer from extended surfaces. Transient and two-dimensional analysis. Convection heat transfer, forced external and internal convection heat transfer. Natural convection. Radiation heat transfer, emission and heat exchange between surfaces. Black and gray bodies. View factors and enclosures 3. Prerequisite: MEP 261; Thermodynamics I; MEP 290; Fluid mechanics 4. Textbooks and/or other Required Material: Fundamentals of heat and mass transfer By: Incropera and De Witt, 6th edition, 2003. 5. Course topics and Course learning objectives: Topics Covered Introduction (1.5 weeks) Course Learning Objectives CLO_1: students will be able to identify the different modes of heat transfer mechanisms. CLO_2: students will be able to recall the energy balance equation. Introduction to conduction CLO_3: Students will be able to define heat conduction. CLO_4: Students will be able to describe the heat diffusion equation for conduction (1 week) problems and list its boundary conditions. Steady 1-D conduction (2 weeks) CLO_5 Students will be able to derive heat diffusion equation for steady 1-D conduction. CLO_6: Students will be able to solve steady 1-D basic heat conduction problems (plane walls, cylinders, spheres, composite walls, conduction with internal heat generation and extended surfaces). Two-D computational conduction analysis (0.5 week) CLO_7: Students will be able to apply finite difference methods to solve steady state 2-D heat basic conduction problems Transient conduction heat transfer analysis (2 weeks) CLO_8: Students will be able to solve unsteady basic heat conduction problems using lumped analysis. Introduction to convection CLO_9: Students will be able to define heat convection. heat transfer (1 week) CLO_10: Student will be able to describe velocity and thermal boundary layers. KING ABDULAZIZ UNIVERSITY FACUTY OF ENGINEERING DEPARTMENT OF THERMAL ENGINEERING AND DESALINATION TECHNOLOGY Forced convection heat transfer analysis for external flows (1.5 weeks) CLO_11: Students will be able to solve basic heat transfer problems involving forced convection over flat plates, circular cylinders, non-circular cylinders, spheres and over bank of tubes Forced convection heat transfer analysis for internal CLO_12: Students will be able to solve basic heat transfer problems involving forced flows convection inside circular and non-circular ducts. (1.5 weeks) Natural convection (1 week) CLO_13: Students will be able to define natural convection. CLO_14: Students will be able to solve basic heat transfer problems involving natural convection over vertical plates, inclined plates, horizontal plates, vertical cylinders, horizontal cylinders and spheres. Thermal radiation (1 week) CLO_15: Students will be able to define thermal radiation, irradiation, radiosity, spectral and total hemispherical emmisivity, transmissivity, absorptivity, reflectivity, black body and gray body. Radiation exchange between surfaces (1 week) CLO_16: Students will be able to calculate basic radiation heat transfer problems between gray surfaces Heat transfer Laboratory CLO_17: Students will be able to conduct, design and analyze experiments 6. Class/Laboratory schedule: Determination of thermal conductivity in solids. Forced convection from cylinder in cross flow. Determination of view factor. KING ABDULAZIZ UNIVERSITY FACUTY OF ENGINEERING DEPARTMENT OF THERMAL ENGINEERING AND DESALINATION TECHNOLOGY MEP 360 HEAT TRANSFER: (4: 3, 1) –2nd Term 1428-1429H (2007-2008G) Course content, assigned problems and grading policy No. Chapter #: Subject Included Sections 1 Chapter 1: Introduction 1.1-1.6 2 Chapter 2: Introduction to Conduction 3 Chapter 3: 1-D Steady State Conduction Lab # (1) 4 5 Chapter 4: 2-D Steady State Conduction Chapter 5: Transient Conduction 6 7 Assigned problems 1.1, 1.4, 1.7, 1.19, 1.31, 1.42 2.1-2.4 2.5, 2.8, 2.17, 2.26, 2.31(a, b) 3.1, 3.3-3.6 4.4 -4.5 HW3(a) 3.2(a), 3.4(a,b), 3.9, 3.10, 3.21 HW3(b) 3.41, 3.44, 3.52, 3.61, 3.73 HW3(c) 3.116, 3.123, 3.125, 3.127, 3.140 4.46, 4.49 5.1,5.2, 5.4,5.6 5.7, 5.10, 5.37, 5.51, 5.59 Chapter 6: Introduction to Convection 6.1- 6.5 6.3, 6.7, 6.15 7.1-7.6 7.20, 7.21, 7.46, 7.68, 7.86 8 Chapter 7: External Flow Lab # (2) Chapter 8: Internal Flow 8.1-8.5 8.16(a,b), 8.26, 8.55, 8.53 9 Chapter 9: Free Convection 9.6 9.5, 9.13, 9.36, 9.52, 9.78 10 Chapter 12: Radiation Processes & 12.1-12.6 12.43, 12.51 Properties 11 Chapter 13: Radiation Exchange 13.1-13.2 13.1, 13.62, 13.70, 13.74 between surfaces Lab # (3) Course Exams 1st Common Major Exam (4th Rabai I 1429H-12th March 2008G) 2nd Common Major Exam (17th Rabai I 1429H-25th March 2008G) Midterm Exam (2nd Rabai II 1428H-8th April 2008G) 3rd Common Major Exam (1st Jumada I 1429H-6th May 2008G) 4th Common Major Exam (22nd Jumada I 1429H- 27th May 2008G) Final Exam (to be announced later) Grading System Course Portfolio…..……………………………………………… 5 Projects…………………………………………………………….5 Lab. Reports………………………………………………………10 Four Common Major Exams………….……………………..… 30 Common Mid-Term Exam…………………………….………. 20 Common Final Exam…………………………………….……. 30 Total 100 th Text Book: Fundamentals of Heat and Mass Transfer 6 Edition By Incorpera/DeWitt/Bergman/Lavine