Venturi meter experiment lab report conclusion. The experiment measured pressure and velocity at different points in the apparatus under varying flow rates. As we will be using the Venturi Meter in order to measure flow, the Bernoulli equation is an important relation that can help getting velocities from fluid pressures a d vice versa. This document describes an experiment using a venturi meter to determine the coefficient of discharge. Also, water from the Venturi meter will be flowing through the pipe into a tank that stands on a scale. Tests were performed to measure flow rates and pressure changes at different settings. This experiment uses the venturi meter to measure the fluid flow through a pipe. The Venturi utilizes pressure drop across a fixed geometry. 2. Venturi meter effect and orifice plate effects are two main and very important phenomena in the fluid mechanics sub-field of mechanical engineering. In this post, the effect of the venturi meter and orifice plate on the fluid flow will be discussed and complete work will be presented in the form of a report. The Venturi effect is named after Giovanni Battista Venturi (1746–1822), an Italian physicist. pdf), Text File (. Open all valves at pipe section and the six tubes manometer. MANUAL: Start the experiment by pressing the start button with keeping default values of inlet die of venturimeter and throat die and rise of water level H and discharge ,then pass the experiment after few cycles and note the observations. The venturi meter works on Bernoulli's principle, where a constriction in cross-sectional area causes an increase in fluid velocity and decrease in pressure. This occurs due to the Venturi effect which states that when a fluid flows through a narrower area, the fluid’s velocity increases while its static pressure decreases. docx from ENIN 253 at University of Regina. The venturi tube has converging and the diverging portion that function of increasing and decreasing the velocity of fluid and lower and higher the static pressure respectively. This apparatus is specially designed to obtain the flow rate measurement by utilizing three basic types of flow measuring techniques, which are float-type flow meter, venturi meter and the orifice meter. Attach the apparatus with the power supply but keep the supply off V= 0. But in this experiment, we used another approach to measure water volume: reading it from a meter instead of computing it by placing a weight on the lever arm. The orifice meter, the nozzle meter, and the Venturi meter are the most common devices used to measure the instantaneous flowrate. The venturi meter follows the principles of the Bernoulli’s equation, where the change in velocity it related to the change of pressure of a system. This document contains the results of an experiment measuring water flow through an orifice. The experiment successfully demonstrated that an increase in differential head leads to an increase in flow rate, confirming the principles of fluid dynamics. Download Lab Reports - Flow Measurement Lab Report | Universiti Kuala Lumpur | Study of flow using venturi meter, rotameter and orifice plate. The objectives are to observe differences between the meters, determine head losses through an elbow, and verify Bernoulli's equation. Place the venture meter on to a horizontal surface and note the height of input valve and output valve and make sure they are same. CONCLUSION It can therefore be concluded that the experiment was successful. Experimental Procedure Connect measurement lines. The pressure in a fluid moving through a small cross section drops suddenly leading t Venturi meter: The Venturi effect is the reduction in fluid pressure that results when a fluid flows through a constricted section of pipe. PROCEDURE: The procedure of the experiment can be found on page 6 of the Lab Manual [1]. Conclusion & Recommendation: In conclusion the experiment was conducted successfully. View Lab - Lab Report 2 - Venturi Meter. Apparatus Figures (1) and (2) show the Flow Measurement apparatus. This experiment demonstrates Bernoulli's principle using a venturi meter apparatus. Water from the Hydraulic Bench enters the equipment through a Venturi meter, which consists of a gradually converging section, followed by a throat, and a long gradually diverging section. 85 and an efficiency of around 87%. It examines the principles of pressure drop due to changes in flow area, analyzes flow behavior at bends, and provides practical applications of Bernoulli's theorem in fluid dynamics. Graphs of flow rate versus This lab report summarizes experiments conducted on a Venturi meter and orifice plate to determine their meter coefficients. Graphs of flow rate versus The Fluid Mechanics Lab Experiment (4) focuses on flow measurement techniques through various devices including a venturi meter, orifice plate, and rotameter. Download Lab Reports - Venturi tube experiment | University of Engineering and Technology Taxila (UETT) | lab reportsthis lab report cover a detail discussion about the venturi tube experiment and its various components with a detailed procedure. Department of Chemical Engineering - An-Najah National University Unit operations Lab I (10626339) Flow Through a Venturi Meter (Experiment No. Bernoulli’s Principle state when a fluid flows at a certain velocity, the pressure surrounding this fluid will decrease. Key parts of the apparatus include the venturi, orifice and rotameter meters as well as a 90 degree elbow. (5%) Conclusion [2%] References [2%] What references you used to complete this Lab Report The objectives from the implement of this experiment are study the principles of Venturi meter and to determine its coefficient (Cd) by comparing the measure flow rate (Qactual) with the ideal flow rate (Qtheortical). Bernoulli equation- Venturi meter CIE 321 Fluid Mechanics- LAB Laboratory Report prepared for: Instructor: Talin Tekirian Date of Experiment: 22. Carleton University Laboratory Report Course #: MAEE 2300 B Experiment #: 1 Flow Through a Venturi View CIVL2510 Lab Report on Venturi Meter. The objectives were to obtain a calibration curve for the meter, investigate the variation in pressure at the inlet and throat, and present results in a non-dimensional form. The experiment aimed to demonstrate Bernoulli's theorem by measuring the pressure head (Hs) and total head (Ht) at various points along a venturi tube for different flow rates. 3. However, for smaller pipes orifice meter is a suitable choice. The experiment helped the students understand how Bernoulli's equation applies practically and the relationship between flow rate Student Learning Objectives Understand how velocity and pressure change as fluid passes through a Venturi meter. Measurements show that pressure is Procedure for Bernoulli experiment Following is a complete procedure for performing the Bernoulli experiment 1. The Venturi is widely used particularly for large volume liquid and gas flows since it exhibits little pressure loss. pdf from CIVL 201 at The Hong Kong University of Science and Technology. The given Venturi is calibrated and plotted as shown in the graph. How do you understand about Bernoulli Principle after conducting the experiment? (5%) What can be improved in this experiment (experimental setup or experimental procedure) to get an improved output data of experiment to understand Bernoulli Principle better. Introduction The purpose of this experiment is to perform and observe the flow of a fluid through a Venturi Meter This document describes an experiment conducted by students to calibrate a Venturi meter. The results showed that as flow velocity increased in the narrowed section of the venturi tube, pressure decreased, validating Bernoulli's principle. Aim This experiment uses the venturi meter to measure the fluid flow through a pipe. According to Bernoulli's principle, fluid pressure decreases where velocity increases in the narrowed section. Department of Civil and Environmental Engineering The Hong Kong University of Lab Report Guidelines for Venturi Meter Experiment_ddf7250b95c36a6c004afc37faaeede1 - Free download as PDF File (. After a change in cross-section through a rapidly diverging section, the flow continues along a settling length and through an orifice meter The main objectives of this experiment is to obtain the coefficient of discharge from experimental data by utilizing venturi meter and, also the relationship between Reynolds number and the coefficient of discharge. - Download as a PDF or view online for free Mar 2, 2018 · Opening one of the two valves will either increase or decrease the flow of water and alter the height difference between the inlet and throat. Includes objectives, apparatus, procedure, results, graphs, and conclusion. The experiment validated Bernoulli's equation, showing that velocity increases The objectives from the implement of this experiment are study the principles of Venturi meter and to determine its coefficient (Cd) by comparing the measure flow rate (Qactual) with the ideal flow rate (Qtheortical). Repeat the experiment for 5-6 readings for different opening of the ball valve and closing the by -pass gate valve. The results were analyzed and graphs plotted to find relationships between theoretical and The Fluid Mechanics Lab Experiment (4) focuses on flow measurement techniques through various devices including a venturi meter, orifice plate, and rotameter. Lab #2 Experiment #3 Venturi Meter Fluid Mechanics Lab Abstract Flow rate is a common measurement which often needs to be performed. On the whole, our experiment was successfully done because we has achieved the objective of the experiment Lab I: Flow Through a Venturi Meter Aniyrudth Srikanth 101140947 aniyrudthsrikanth@cmail. Results showed that as flow rate increased, pressure differences increased and velocities increased. The experiment is conducted at different flow rates. The pressure in a fluid moving through a small cross section drops suddenly leading t Lab report on venturimeter experiment: objective, theory, procedure, and calculations for determining the discharge coefficient. This is because from the results, it can be seen clearly that a rise in differential head of two tubes causes the flow rate of the liquid in the tubes to increase and this proves the Venturi effect. Bbbbb In conclusion, this experiment successfully demonstrated the application of Bernoulli’s equation in relation to real flow through the Venturi meter, providing an understanding of the usage of manometers to determine fluid pressures and the physical meanings of static, stagnation, and dynamic pressures. The experiment involves measuring the actual discharge of water from the venturi meter over time and calculating the theoretical Department of Chemical Engineering Practical number: 9 Flow Meters Study Surname and initials Student number Guma N 21718899 Khanyile B 22013188 Buthelezi M. SOLTEQ® FLOWMETER MEASUREMENT APPARATUS (FM101) Page 2 f3 OBJECTIVE Based on this experiment, the main objectives of this experiment is to obtain the flow rate measurement with comparison of pressure drop by utilizing three basic types of flow measuring technique which are rotameter, venturi meter and orifice meter. 274- [ 〖1. A venturi meter uses a constricted section that increases fluid velocity and decreases pressure to allow flow rate calculations. ### Conclusion The Venturi meter performed effectively, with an average discharge coefficient of 0. It includes sections on the theory behind the Venturi effect, experimental setup, procedure, results, discussions, and conclusions. 865 m/sec h_n= h_1- [ (v_n^2)/2g- (v_1^2)/2g] h_2= 0. The venturi tube has converging and diverging portion that function of increasing and decreasing the velocity of fluid and lower and higher the static pressure respectively. Experiment 2_ Flow Through an Orifice Lab Report - Read online for free. It shows that venturi meter is more accurate compare to orifice meter which the flow rates of venturi meter is closer to the actual value of the flow rates. The experiment helped the students understand how Bernoulli's equation applies practically and the relationship between flow rate Abstract In this experiment we determine the flow measurement using Venturi meter and based on that we are going to use bernoullis equation in order to compare with the measured flow rate using the given apparatus in terms of the actual flow discharge and compare that to the flow rate that we measured in relation to the principle of venturi meter. Some This document describes an experiment using a venturi meter to measure fluid flow rate. A venturi meter allows the flow rate in a pipe to be determined from a pressure differential. StuDocu is not sponsored or endorsed by any college or university Fluids Lab 1 - Full Venturi lab for MAAE 2300 - Experiment 1 Fluid Mechanics I (Carleton. 1 Venturi Meter sure the flow of a fluid in the pipe. This experiment uses a flowmeter apparatus to compare flow rates measured by venturi, orifice and rotameter meters. Overall, the experiment successfully demonstrated the View Lab - Lab 1 - Flow Through a Venturi Meter . Venturi Meter sure the flow of a fluid in the pipe. docx from MAAE 2300 at Carleton University. For measuring flow in enclosed ducts or channels, the Venturi meter and orifice meters are more convenient and more frequently used. A venturi narrows the diameter of the pipe for a short duration, converting pressure head to velocity head. The deviations between actual and theoretical flow rates were expected due to experimental limitations like friction, measurement errors, and flow disturbances. Fluid Mechanics II lab report on Venturi meter experiment. II. The aim was to understand how a decrease in flow area affects fluid velocity and pressure. from a pipe. 106529〗^2 This document describes an experiment conducted by students to calibrate a Venturi meter. Lab report on venturimeter experiment: objective, theory, procedure, and calculations for determining the discharge coefficient. txt) or read online for free. This experiment offers the verification of Bernoulli’s Principle using a venturi meter. Experimental results show that as the cross-sectional area decreases in the converging section, the water velocity increases and pressure decreases according to Bernoulli's equation. The experiment measures pressure differences and uses Bernoulli's equation along with venturi dimensions to determine theoretical and actual flow rates. Therefore, Bernoulli’s equation will only be valid for the centroid of the flow through the Venturi where the effects of viscosity has not reached yet or doesn’t affect the flow too much. It basically works on the principle of Bernoulli's Theorem. This document describes an experiment using a venturi meter to measure fluid flow rate. The apparatus measures the pressure and flow rate of water passing through a pipe with a converging-diverging section. The apparatus measures fluid pressure at different points along the venturi tube, which narrows and then widens. Figure. As from the results it is evident that the increase in flow rate causes the differential head to rise in the two limbs of the manometer which proves the Venturi effect. A Venturi meter may also be used to increase the velocity of any type fl id in a pipe at any particular point. This document summarizes an experiment demonstrating Bernoulli's theorem using a venturi meter apparatus. OER for fluid mechanics lab course with educational videos and lab report preparation tookit for each experiment Therefore, Bernoulli’s equation will only be valid for the centroid of the flow through the Venturi where the effects of viscosity has not reached yet or doesn’t affect the flow too much. FLOW OF FLUIDS THROUGH A VENTURI METER Lab Report 1 By: Emmanuella Ahutu (101269609) Email: ellaahutu@cmail. The conclusion emphasizes the Venturi meter's effectiveness in determining flow rates and managing fluid discharge in various industrial applications. 1. The purpose of this experiment is also to calculate Q and at different h Throughout the experiment, it can be seen that at the throat of the Venturi meter the pressure deviates the most from the theoretical prediction. This experiment aims to demonstrate Bernoulli's theorem using a venturi meter apparatus. This experiment is conducted to determine the actual and theoretical discharge and the coefficient discharge (Cd ), with the use of different pipe diameters (50 mm, 40 mm and 20 mm. Each of these meters operates on the similar principle. rxl2, nrdy4p, qfpsno, wdpyre, fivr, qras, kqvse, x1qm, zxlli, cke4i,