ENGCB224-21B (HAM)

Heat and Mass Transfer

15 Points

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Division of Health Engineering Computing & Science
School of Engineering

Staff

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Convenor(s)

Amir Tarighaleslami

Amir Tarighaleslami
9243
G.3.01
See Moodle
amir.tarighaleslami@waikato.ac.nz

Lecturer(s)

Mohamed Dabbour

Mohamed Dabbour
00
G.3.01
See Moodle
moe.dabbour@waikato.ac.nz

Administrator(s)

: mary.dalbeth@waikato.ac.nz
: natalie.shaw@waikato.ac.nz

Placement/WIL Coordinator(s)

Tutor(s)

Student Representative(s)

Lab Technician(s)

Librarian(s)

: cheryl.ward@waikato.ac.nz

You can contact staff by:

  • Calling +64 7 838 4466 select option 1, then enter the extension.
  • Extensions starting with 4, 5, 9 or 3 can also be direct dialled:
    • For extensions starting with 4: dial +64 7 838 extension.
    • For extensions starting with 5: dial +64 7 858 extension.
    • For extensions starting with 9: dial +64 7 837 extension.
    • For extensions starting with 3: dial +64 7 2620 + the last 3 digits of the extension e.g. 3123 = +64 7 262 0123.
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Paper Description

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This course covers the fundamental theory and applications of Heat and Mass Transfer. Topics include mechanisms of heat and mass transfer, steady-state heat conduction including fins, transient heat conduction, forced convection, natural convection, radiation, boiling and condensation, heat exchangers, mass diffusion and mass convection.
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Paper Structure

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The paper is taught through a combination of lectures, tutorials, and laboratory classes. The tutorials will build on the content of the lectures; during the first half of the tutorial the lecturer will go through worked example problems, and the second half will be a time for students to work on their weekly assignments with assistance from the lecturer and/or tutor. In addition to the lectures and tutorials, each student will attend four laboratory classes where they will learn about practical aspects of heat and mass transfer.
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Learning Outcomes

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Students who successfully complete the paper should be able to:

  • Explain in scientific terms the underlying principles and mechanisms that govern the behaviour and of heat and mass transfer in solid and fluid materials
    Linked to the following assessments:
  • Solve practical heat and mass transfer problems that engineers are likely to face in the real world, including:
    • heat and mass flows through plane walls and pipe walls
    • cooling and heating times of regularly shaped objects
    • heat transfer coefficients determination for single and multiphase problems
    • mass transfer in 1-D fluid flows
    Linked to the following assessments:
  • Perform thermal design calculations for heat exchangers
    Linked to the following assessments:
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Assessment

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The learning outcomes are assessed in tests, weekly assignments, labs, a project, and an exam, weighted as shown:

50% Final Exam (Restricted Book)

20% Two Mid-trimester Tests (each worth 10%)

10% Assignments (Five assignments, each worth 2%)

10% Lab works (Four experiments, each worth 2.5%)

10% Project

Final exam

The final examination will be at the end of the trimester, covering the whole semester’s lecture material. It will be a Restricted Book examination. Programmable calculators, not containing stored information, are allowed. Students are allowed to bring one (1) sheet (i.e. double sides) of A4 notes hand-written into the exam room. The Exam worth 50% of your final grade. Students must score at least 40% on the exam to pass the course. The format of the final examination will be discussed in lectures during the last week of the course.

Tests

There will be two 1-hour mid-term tests (during the weeks starting 10th August and 5th October) worth 20 (each 10%).

Assignments

There will be five (5) fortnightly assignments that will be released in Moodle at the start of the week. They contribute 10% to the final mark.

All assignments and lab worksheets are submitted at the School of Engineering Assignment Box (E2.04). Marked assignments will be handed out in the lecture and tutorials.

Lab work

There are four laboratory sessions. The timetable for the labs will be decided by the end of the second week, once all enrolments have been finalised. Each student is required to write a short lab report covering the main results and analysis from the laboratory exercise, which will be submitted at the School of Engineering Assignment Box (E2.04). The labs contribute 10% to the final mark.

Project

In addition to the weekly assignments, there will be a mini-project worth 10% where students will have the opportunity to apply their heat transfer knowledge to an open-ended design challenge.

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Assessment Components

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The internal assessment/exam ratio (as stated in the University Calendar) is 50:50. There is no final exam. The final exam makes up 50% of the overall mark.

The internal assessment/exam ratio (as stated in the University Calendar) is 50:50 or 0:0, whichever is more favourable for the student. The final exam makes up either 50% or 0% of the overall mark.

Component DescriptionDue Date TimePercentage of overall markSubmission MethodCompulsory
1.  Assignment 1
26 Jul 2021
1:00 PM
2
  • Other: Hand-in at the SoE Assignment Box (E2.04)
2. Assignment 2
9 Aug 2021
1:00 PM
2
  • Other: Hand-in at the SoE Assignment Box (E2.04)
3. Assignment 3
6 Sep 2021
1:00 PM
2
  • Other: Hand-in at the SoE Assignment Box (E2.04)
4. Assignment 4
20 Sep 2021
1:00 PM
2
  • Other: Hand-in at the SoE Assignment Box (E2.04)
5. Assignment 5
4 Oct 2021
1:00 PM
2
  • Other: Hand-in at the SoE Assignment Box (E2.04)
6. Lab 1 (Experiment 4)
2.5
  • Other: Hand-in at the SoE Assignment Box (E2.04)
7. Lab 2 (Experiment 2)
2.5
  • Other: Hand-in at the SoE Assignment Box (E2.04)
8. Lab 3 (Experiment 1)
2.5
  • Other: Hand-in at the SoE Assignment Box (E2.04)
9. Lab 4 (Experiment 3)
2.5
  • Other: Hand-in at the SoE Assignment Box (E2.04)
10. Project
10
  • Other: Hand-in at the SoE Assignment Box (E2.04)
11. Test 1
13 Aug 2021
12:00 AM
10
12. Test 2
8 Oct 2021
6:00 PM
10
13. Exam
50
Assessment Total:     100    
Failing to complete a compulsory assessment component of a paper will result in an IC grade
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Required and Recommended Readings

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Required Readings

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Çengel & Ghajar, Heat and Mass Transfer: Fundamentals & Application, 6th edition, McGraw-Hill, 2020.
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Online Support

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This paper has a Moodle page (http://elearn.waikato.ac.nz) where you will be able to access lecture notes, lab manual, and assessment materials. Lecture recordings via Panopto will also be available on Moodle.
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Workload

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The workload for a 15 point paper is 150 hours total. This equates to roughly 60 contact hours (36 hrs lectures, 12 hrs tutorials, 4 x 2hrs labs, 2 x 2 hrs tests, and a 3 hrs exam) plus 90 hours for assessment and independent study.

Students are expected to attend and take notes of lectures, participate in four labs in total, and attend at least one tutorial per week.

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Linkages to Other Papers

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This paper is a prerequisite for ENGCB324.
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Prerequisite(s)

Prerequisite papers: ENGME221 or ENMP221

Corequisite(s)

Equivalent(s)

Restriction(s)

Restricted papers: ENMP223 or ENMP323

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