Class: DME2 Title: Flow Measurement Date: 11/02/2013 Lecturer: Mr Higgins Summary: In this experiment many different meters were used to measure fluid flow rate; the orifice plate‚ the venture meter‚ the rota meter and the weigh tank. Each meter works by its ability to alter a certain physical property of the flowing fluid and then allows this alteration to be measured. The measured alterations are linked directly to the flow rate and these measurements are subbed in to adjusted equations
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ME2135E Fluid Mechanics Formula sheet ( ) Centrifugal Pump Power ( ) Head ( ) ( Head Capacity Coeff ) Head Coeff ( ) ( Eff ( ) ⁄ | ⁄ ( Head ⁄( ( )( ( ) ) ( )( ) ( ) ) | ) Axial Pump Power ( ⁄ ⁄ Eff Power Coeff () () ) ) ( Head ⁄) ( )⁄ ������������ ������ ������������ ������������ ������ ������������������ ������ ������������������
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Q2 b) Consider the velocity field V = Ax/(x²+y²)i + Ay/(x²+y²)j in the xy plane‚ where A = 10 m²/s‚ and x and y are measured in meters. i) Show this is an incompressible flow field. ii) Derive an expression for the fluid acceleration. iii) Evaluate the acceleration along the x axis‚ the y axis‚ and along a line defined by y = x. (14 marks) Question 1 ( 15 markah ) a) Define and explain briefly the following : i) velocity potential‚ f (x‚y) ( 4 markah ) ii) stream function
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100 321.9 4.5 1.0 50 100 490.6 5.0 1.0 50 100 Post-lab Quiz Results You scored 100% by answering 4 out of 4 questions correctly. 1. The variable that you altered in this activity wasYou correctly answered: c. vessel radius. 2. Vessel radius and fluid flow You correctly answered: b. are directly proportional. 3. After a heavy meal‚ when we are relatively inactive‚ we might expect blood vessels in the
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Fluid Mechanics Laboratory 2 Report Robby Joseph 14103508 1.0 Introduction This experiment was undertaken for the study of flow in pipes and the factors that affect it in both laminar and turbulent regimes. The transitional regime between laminar and turbulent flow will also be studied. The experiment was done using a pipe with a known diameter‚ and water was pumped in from a tank. Throughout the process‚ measurements of the quantity of water and time were taken as well as the hydraulic gradient
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Hydraulic Systems Examples of hydraulic systems Basic hydraulic system Basic fluid power symbols Basic fluid power ANSI/ISO symbols Basic fluid power symbols Hydraulic Pumps Pump characteristic Operating pressure Speeds Displacement volume (V) – volume of liquid per revolution Volumetric flow rate: Q = n × V where n : number of rotation (rpm) V : displacement volume (per rev) Pump Efficiency (Volumetric) To determine performance of pump Divided into two: Volumetric efficiency
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UNIVERSITI TENAGA NASIONAL COLLEGE OF ENGINEERING DEPARTMENT OF MECHANICAL ENGINEERING MEHB221 - FLUIDS MECHANICS LAB EXP. TITLE : EXPERIMENT 7-PUMP PERFORMANCE – SINGLE PUMP AUTHOR : MOHD SYAHEEN NASRIN BIN SALEHUDDIN SID : ME090195 SECTION : 06 GROUP : A GROUP MEMBERS: 1………………………………………………. 2………………………………………………. 3………………………………………………. 4………………………………………………. 5………………………………………………. INSTRUCTOR : ………………………………………………. Performed Date Due Date*
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Experiment 1 Fluid Flow In A Smooth Pipe Abstract In this experiment‚ three variable flow meters are used to alter the flowrate. Changes in pressure drop due to the change in flowrate are then observed from the three pressure gauges that can measure pressure at different range and recorded. The shift from laminar flow to turbulent flow is seen from the results recorded‚ but it is observed more clearly from the water-soluble dye experiment that was carried out by the demonstrator. Laminar flow
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of Bahrain College of Engineering Department of Civil Engineering and Architecture Fluid Mechanics CENG231 Osborne Reynolds Demonstration Sayed abbas Mohamed 20104762 03 1. Objective: To reproduce the classical experiments conducted by Professor Osborne Reynolds concerning fluid flow condition. 2. Theory: Reynolds number‚ Re is the internationally recognized criterion denoting fluid flow condition. “ Re = 4Q/ πvd ” Osborn Reynolds determined that values of Re could
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MAE130B Concept/Question/Comments Film: Channel Flow of a Compressible Fluid Due Date: March 15‚ 2013 Concept 1: Choking Choking occurs when the Mach number at the throat of a channel flow is equal to one. Conceptually choking is the phenomena where the flow in a channel transitions to sonic flow. Due to the conditions of choking‚ the velocity‚ density‚ and pressure can increase or decrease continuously through a sonic throat‚ and the flow does not need to be symmetrical. Another notable phenomena
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