ENGCV223-23B (HAM)
Water Engineering 1
15 Points
Staff
Convenor(s)
Yifan Yang
0000
F.1.11D
yifan.yang@waikato.ac.nz
|
Lecturer(s)
Michael Walmsley
4701
G.3.04
michael.walmsley@waikato.ac.nz
|
Administrator(s)
Librarian(s)
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.
What this paper is about
How this paper will be taught
Paper Description
This course covers the basic principles of fluid mechanics. Topics include fluid statics, fluid dynamics, Bernoulli and energy equations, momentum analysis of flow structures, flow measurement, dimensional analysis, internal flow in pipes and ducts, external flow over streamlined and bluffed bodies, pump sizing and selection, and an introduction to open channel flow.
The learning outcomes for this paper are linked to Washington Accord graduate attributes WA1-WA11. Explanation of the graduate attributes can be found at: https://www.ieagreements.org/assets/Uploads/Documents/IEA-Graduate-Attributes-and-Professional-Competencies-2021.1-Sept-2021.pdf
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Paper Structure
The paper content is delivered through a combination of online mini-lectures, face-to-face lectures, face-to-face laboratories, face-to-face workshops, and face-to-face tutorials.
Please note that the Lectures, Water Network Design Challenge Workshops, and Tutorials start in the FIRST week of the trimester, whereas the laboratories start in the SECOND week of the trimester. All of these activities are an essential part of the learning for this paper.
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Students should view the mini-lectures associated with each lecture before attending. Lectures will involve discussion, demonstrations, practise problems, quizzes, and solving open-ended design problems involving fluids.
Tutorials start on the FIRST THURSDAY of the trimester. Plan to attend at least one tutorial per week. If you are having trouble completing the assignments or are finding it difficult to understand the lecture material, please feel free to attend as many (or whichever) tutorials you wish. Please note that attendance will be recorded.
Workshops start in the FIRST week of the trimester. Students must attend one workshop session each week (attendance will be recorded). Sign-up will be available online via Moodle.
Labs start in the SECOND week of the trimester (attendance will be recorded). Appropriate footwear must be worn in the labs (i.e. no open-toed shoes, shoes must be secured at the heel).
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Workload
12 x 3 hr Lectures
11 x 1 hr Tutorials
5 x 2 hr Laboratories
5 x 5.5 hr Lab Assignment Write-Up
2 x 12 hrs Assignments
10 x 1 hr Project Workshops
1 x 10 hr Water Distribution Network Modelling
1 x 5 hr Project Group Report Write-up
1 x 10 hr Test Preparation
1 x 2 hr Tests
1 x 24 hr Exam Preparation
1 x 3 hr ExamRequired Readings
Çengel, Y.A., & Cimbala, J. M. (2010). Fluid Mechanics: Fundamentals and Applications. Second Edition, McGraw Hill Publication
Learning Outcomes
Students who successfully complete the course should be able to:
Assessments
How you will be assessed
The learning outcomes are assessed using a combination of:
Tutorial assignments (10%)
There will be five Tutorial assignments worth 2% each.
Laboratory Worksheets (15%)
There will be five laboratory worksheet worth 3% each.
Test (15%) - 2 hour
There will be a 2 hour face-to-face test in the LG.01 on Tuesday 13th September from 6 pm - 8 pm. The format will be discussed in class prior to the test. You may bring a 'cheat sheet' (1 x A4 sheet of paper with notes written on both sides).
Water Network Design Challenge (10%)
Groups of approximately 4 students will design and model water distribution networks to meet a given specification. Each group member is required to develop either a metered or unmetered network (5%), and each team is required to submit a group report (5%).
Exam (50%) - 3 hour
The final exam will cover the whole trimester's lecture material. It will be a closed book face-to-face exam. Programmable calculators, not containing stored information, are allowed. A formula sheet will be provided. The format of the Exam will be discussed in the tutorials during the last week of the course. Students must get a minimum of 40% in the exam to pass the paper.
The internal assessment/exam ratio (as stated in the University Calendar) is 50:50. The final exam makes up 50% of the overall mark.