Module Information

معلومات المادة الدراسية

Module Title

Heat Transfer ІІ

Module Delivery

Module Type

C

☒ Theory

☒ Lecture

☐ Lab

☐ Tutorial

☐ Practical

☐ Seminar

Module Code

GPPE308

ECTS Credits

6

SWL (hr/sem)

150

Module Level

UGx11  3

Semester of Delivery

6

Administering Department

GPPE

 College

 COGE

Module Leader

MSc. Rasha Nassar Lauibi

 e-mail

Rashan@gmail.com

Module Leader’s Acad. Title

Professor

Module Leader’s Qualification

Ph.D.

Module Tutor

Name (if available)

 e-mail

E-mail

Peer Reviewer Name

MSc. Rasha Nassar Lauibi

 e-mail

Rashan@gmail.com

Scientific Committee Approval Date

01/06/2023

Version Number

1.0

Relation with other Modules

العلاقة مع المواد الدراسية الأخرى

Prerequisite module

Semester

Co-requisites module

Semester

Module Aims, Learning Outcomes and Indicative Contents

أهداف المادة الدراسية ونتائج التعلم والمحتويات الإرشادية

 Module Objectives

أهداف المادة الدراسية

1. To develop problem solving skills and understanding the principal concepts of heat transfer methods.
2. To understand   an equilibrium state when the temperatures of objects are  equal to each other
3. This course  focuses on several  different mechanisms of heat transfer
4. To be able to use Newton's law of cooling in forced and natural convection heat transfer calculations
5. To understand relationship between the boundary conditions of the solid surface with the interfacial values.
6. To perform he best choice of insulating materials and optimal engineering installation

Module Learning Outcomes

مخرجات التعلم للمادة الدراسية

1. Giving an overview subject to knowledge the temperature and/or heat flow convection heat transfer .
2. Present the three basic mechanisms of heat transfer, which are conduction, Convection, and radiation, and discuss thermal conductivity.
3. Predict the distribution of temperature and heat transfer within the fluid layer and the effect of fluid properties on heat transfer coefficient.
4. Employ the fundamental physical principle to meet the objective of conservation of energy often referred to as the first law of thermodynamics.
5. Predict the rate of heat transfer through a slab that is maintained at different temperature  
6. The Energy transfer is always from the higher temperature medium to the lower temperature one, and the energy transfer stops when the two mediums reach the same temperature.

7.    Heat, which is the form of energy that can be transferred from one system to another as a result of temperature difference. The science that deals with the determination of the rates of such energy transfers is heat transfer.

8.     The rate of heat transfer in a certain direction depends on the magnitude of the temperature gradient (the temperature difference per unit length or the rate of change of temperature) in that direction. The larger the temperature gradient, the higher the rate of heat transfer.

9.    An engineering device or process can be studied either experimentally (testing and taking measurements) or analytically (by analysis or calculations).

10.    The experimental approach has the advantage that we deal with the actual

 physical system, and the desired quantity is determined by measurement, within the limits of experimental error.

7. 11.   In engineering studies, often a good compromise is reached by reducing the choices to just a few by analysis, and then verifying the findings experimentally..

Indicative Contents

المحتويات الإرشادية

Indicative content includes the following.

Learning and Teaching Strategies

استراتيجيات التعلم والتعليم

Strategies

All learning starts from a basis of previous experience and develops in a purposeful fashion according to the usefulness or value which the new ways of dealing with the world have for each student. The field of heat transfer learning today emphasizes the Exploration of students’ prior ideas and expectations, Another strategy can also be used Challenging such as brainstorming, prediction and written response to elicit the students’ prior knowledge. These techniques helped make our lessons more interesting, and the students seemed to enjoy the learning process. An alternative strategy is to Solve the assignments assigned to the student and participate in them in the classroom

Student Workload (SWL)

الحمل الدراسي للطالب محسوب لـ ١٥ اسبوعا

Structured SWL (h/sem)

الحمل الدراسي المنتظم للطالب خلال الفصل

58

Structured SWL (h/w)

الحمل الدراسي المنتظم للطالب أسبوعيا

4

Unstructured SWL (h/sem)

الحمل الدراسي غير المنتظم للطالب خلال الفصل

92

Unstructured SWL (h/w)

الحمل الدراسي غير المنتظم للطالب أسبوعيا

6

Total SWL (h/sem)

الحمل الدراسي الكلي للطالب خلال الفصل

150

Module Evaluation

تقييم المادة الدراسية

As

Time/Number

Weight (Marks)

Week Due

Relevant Learning Outcome

Formative assessment

Quizzes

2

10% (10)

5 and 10

LO #1, #2 and #10, #11

Assignments

2

10% (10)

2 and 12

LO #3, #4 and #6, #7

Projects / Lab.

1

10% (10)

Continuous

All

Report

1

10% (10)

13

LO #5, #8 and #10

Summative assessment

Midterm Exam

2hr

10% (10)

7

LO #1 - #7

Final Exam

3hr

50% (50)

16

All

Total assessment

100% (100 Marks)

Delivery Plan (Weekly Syllabus)

المنهاج الاسبوعي النظري

Week 

Material Covered

Week 1

Physical Mechanism Of Convection, Newton's law of cooling

Week 2

Dimensionless numbers in convection heat transfer

Week 3

The Convection Boundary Layers ,The Velocity Boundary Layer ,The Thermal Boundary Layer

Week 4

Local and Average Convection Coefficients, Laminar and Turbulent Velocity Boundary Layers Laminar and Turbulent Thermal and Species

Week 5

Boundary Layer Equations for Laminar Flow, Derivation of the Convection Transfer Equations, Conservation of Mass , Newton’s Second Law of Motion , Conservation of Energy

Week 6

Laminar and Turbulent Flow over an Isothermal Plate

Week 7

Flat Plates with Constant Heat Flux Conditions, The Cylinder in Cross Flow

Week 8

Mid-term Exam

Week 9

Hydrodynamic Considerations, The Mean Velocity

Week 10

Velocity Profile in the Fully Developed Region, Pressure Gradient and Friction Factor in Fully Developed Flow

Week 11

Thermal Considerations, The Mean Temperature , Newton’s Law of Cooling , Fully Developed Conditions

Week 12

Laminar Flow in Circular Tubes: Thermal Analysis and Convection Correlations ,The Fully Developed Region ,The Entry Region Convection Correlations: Turbulent Flow in Circular Tubes  Convection Correlations: Noncircular Tubes and the Concentric Tube Annulus

Week 13

Laminar Free Convection on a Vertical Surface, The Governing Equations

Week 14

Combined Free and Forced Convection

Week 15

Tutorials and   Homework solution

Week 16

Preparatory week before the final Exam

Learning and Teaching Resources

مصادر التعلم والتدريس

Text

Available in the Library?

Required Texts

Heat and Mass transfer Fundamental and Application by  YUNUS A. ÇENGEL

Fundamentals of Heat and Mass Transfer , INCROPERA

Heat Transfer J.P Holman

Yes

Recommended Texts

HEAT. TRANSFER  by Adrian Bejan

No

Websites

                                                                     Grading Scheme

مخطط الدرجات

Group

Grade

التقدير

Marks %

Definition

Success Group

(50 - 100)

A - Excellent

امتياز

90 - 100

Outstanding Performance

B - Very Good

جيد جدا

80 - 89

Above average with some errors

C - Good

جيد

70 - 79

Sound work with notable errors

D - Satisfactory

متوسط

60 - 69

Fair but with major shortcomings

E - Sufficient

مقبول

50 - 59

Work meets minimum criteria

Fail Group

(0 – 49)

FX – Fail

راسب (قيد المعالجة)

(45-49)

More work required but credit awarded

F – Fail

راسب

(0-44)

Considerable amount of work required

Note: Marks Decimal places above or below 0.5 will be rounded to the higher or lower full mark (for example a mark of 54.5 will be rounded to 55, whereas a mark of 54.4 will be rounded to 54. The University has a policy NOT to condone "near-pass fails" so the only adjustment to marks awarded by the original marker(s) will be the automatic rounding outlined above.