Fluid Mechanics 1
Semester 1, 2020
Staff
Calendar notes
Fluid properties and definitions. Hydrostatics and stability of floating bodies. Fluid flow, energy and continuity relationships. Viscosity. Force and momentum relationship. Dimensional analysis and similarity. Introduction to turbomachinery.
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Intended learning outcomes |
Related graduate attributes |
Related assessments |
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Flow Energy: Apply Bernoulli'sequation to problems in which energy loss is neglected apply the concept of energy conservation to derive Bernoulli’s equation for a bulk flow and along a streamline. |
ENGA01: engineering knowledge (4) ENGA02: problem analysis (4) ENGK03: abstraction and formulation (5) UOA_2: Critical Thinking (3) UOA_3: Solution Seeking (2) |
Quiz 4 - Bernoulli Quiz 5 - Losses, pumps and turbines Final examination |
Fluid Dynamics - The Momentum Principle: Apply the concept of conservation of momentum to determine external force acting on a solid. Accurately complete an analysis of forces acting on and momentum fluxes crossing a control surface |
ENGA01: engineering knowledge (4) ENGA02: problem analysis (4) ENGK03: abstraction and formulation (5) ENGK04: specialist knowledge (3) UOA_2: Critical Thinking (3) UOA_3: Solution Seeking (2) |
Quiz 6 - Conservation of momentum Final examination |
Fluids in Motion: Choose a suitable control volume and apply the control volume equation. Describe at least two stagnation meters and two constriction meters. Use streamlines to sketch simple flow patterns. Distinguish between streamlines, streaklines and pathlines. Check whether a given pair of functions are compatible with their use to describe a 2-dimensional incompressible fluid flow Determine viscous drag forces and friction losses due to laminar flow in a pipe. |
ENGA01: engineering knowledge (4) ENGA02: problem analysis (4) ENGK01: theory of natural sciences (2) ENGK03: abstraction and formulation (5) UOA_1: Disciplinary Knowledge and Practice (3) UOA_2: Critical Thinking (3) |
Quiz 3 - Fluid kinematics and mass conservation Test 2 Final examination |
Properties of Fluids: Classify the various fluid properties and explain how they interact to control fluid behaviour |
ENGA01: engineering knowledge (4) ENGK01: theory of natural sciences (2) |
Quiz 1 - Fluid Properties Test 1 Test 2 Final examination |
Dimensional Analysis: Derive and understand the significance of the hydraulic numbers. Use the similarity principle to undertake scale model tests to be used in engineering design. Validate the dimensions of a physical equation. |
ENGA01: engineering knowledge (4) ENGA02: problem analysis (4) ENGK03: abstraction and formulation (5) ENGK04: specialist knowledge (3) ENGK05: engineering design (3) ENGK06: engineering practice (2) ENGP01: depth of knowledge required (2) UOA_1: Disciplinary Knowledge and Practice (3) UOA_2: Critical Thinking (3) UOA_3: Solution Seeking (2) UOA_5: Independence and Integrity (2) |
Individual research assignment Group project submission |
Hydrostatics: Students will be able to calculate fluid loads on structures. They will be able to apply Archimedes principle to floating and submerged bodies. They will be able to calculate draft and apparent weight and determine the stability state of a floating body. They will be able to state the dimensions of fluid properties, and will be aware of the dependencies of fluid particles and quote typical values. |
ENGA01: engineering knowledge (4) ENGA02: problem analysis (4) ENGK03: abstraction and formulation (5) UOA_1: Disciplinary Knowledge and Practice (3) UOA_2: Critical Thinking (3) |
Test 1 Quiz 2- Hydrostatics Test 2 Final examination |
Coursework
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