Nov 20, 2016 · Conclusion Venturi Meter and Orifice Plate. An experiment was conducted to find the overall meter coefficient C in the venture meter and orifice tube and results show that the flow rate and ∆h are directly proportional to each other and along with this ∆h and the ∆d are also directly proportional to each other. ... EXPERIMENT NO: 2 DATE: ORIFICE METER AIM: 1. To calibrate the given Orifice Meter. 2. To find its coefficient of discharge. 3. To determine the variation of Co with NRe. APPARATUS: Orifice Meter setup is a closed circuit unit consists of Positive displacement Pump, Water ... 3. Orifice meter size inlet ø 20 mm and throat ø 14mm. 4. Differential mercury manometer tapings provided at inlet and throat of venturi meter and orifice meter. Manometer size 50 cmheight. 5. Measuring tank size - 300 mm x 300 mm x 300 mmheight. Theory: A Venturimeter is a device which is used for measuring the rate of flow of fluid through ... ... 1- The orifice meter. 2- Measuring tank. 3- Stopwatch. 4.2. Procedure: 1. Measure the (Q act) by recording the time for takes the fixed volume of water in measuring tank, such as, (10, and 15 Liter). 2. Measure (H o, and H c) by using piezometer tubes in orifice meter. 3. Measure the diameter of jet at the vena contract (d c) by measuring (d ... ... Venturi meter: One of the disadvantages of orifice meters is the large irreversible pressure loss across the orifice, which results in substantial pumping costs in case of large diameter pipes. However, the same principle can be exploited with only minimal pressure loss with the use of a Venturi meter. In this case, the meter consists of a ... We will measure the pressure (head) loss in a water as it goes through an orifice. he T schematic of the set up is shown in the following figure. Stations 6, 7, and 8 are upstream, immediately after the orifice, and far downstream of the orifice, respectively. The height of ... The document describes an experiment to: 1. Determine the coefficient of discharge of a venturi meter and orifice meter from experimental data using a flow measurement apparatus. 2. Analyze the relationship between the Reynolds number and coefficient of discharge for different flow meters including a venturi meter, orifice meter, and rotameter. 3. Measure the flow rate through each device and ... ... 2) If the flow rate increases then the orifice coefficient: Increases. Remains constant ... ">
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the rotameter, the orifice meter, and the venturi meter are only a few. 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 alteration is then related to the flow. The subject of this experiment is to . analyze the features of certain meters. 3 ...
Figure 3: Schematic Diagram for Venturimeter and Orifice meter A: Venturimeter B: Orifice meter Procedure: 1. Check all the clamps for tightness. 2. Check whether the water level in the main tank is sufficient for the suction pipe of pump to be completely immersed. 3. For measurement through venturi, open the outlet valve of the venturi meter ...
Nov 20, 2016 · Conclusion Venturi Meter and Orifice Plate. An experiment was conducted to find the overall meter coefficient C in the venture meter and orifice tube and results show that the flow rate and ∆h are directly proportional to each other and along with this ∆h and the ∆d are also directly proportional to each other.
EXPERIMENT NO: 2 DATE: ORIFICE METER AIM: 1. To calibrate the given Orifice Meter. 2. To find its coefficient of discharge. 3. To determine the variation of Co with NRe. APPARATUS: Orifice Meter setup is a closed circuit unit consists of Positive displacement Pump, Water
3. Orifice meter size inlet ø 20 mm and throat ø 14mm. 4. Differential mercury manometer tapings provided at inlet and throat of venturi meter and orifice meter. Manometer size 50 cmheight. 5. Measuring tank size - 300 mm x 300 mm x 300 mmheight. Theory: A Venturimeter is a device which is used for measuring the rate of flow of fluid through ...
1- The orifice meter. 2- Measuring tank. 3- Stopwatch. 4.2. Procedure: 1. Measure the (Q act) by recording the time for takes the fixed volume of water in measuring tank, such as, (10, and 15 Liter). 2. Measure (H o, and H c) by using piezometer tubes in orifice meter. 3. Measure the diameter of jet at the vena contract (d c) by measuring (d ...
Venturi meter: One of the disadvantages of orifice meters is the large irreversible pressure loss across the orifice, which results in substantial pumping costs in case of large diameter pipes. However, the same principle can be exploited with only minimal pressure loss with the use of a Venturi meter. In this case, the meter consists of a
We will measure the pressure (head) loss in a water as it goes through an orifice. he T schematic of the set up is shown in the following figure. Stations 6, 7, and 8 are upstream, immediately after the orifice, and far downstream of the orifice, respectively. The height of
The document describes an experiment to: 1. Determine the coefficient of discharge of a venturi meter and orifice meter from experimental data using a flow measurement apparatus. 2. Analyze the relationship between the Reynolds number and coefficient of discharge for different flow meters including a venturi meter, orifice meter, and rotameter. 3. Measure the flow rate through each device and ...
2) If the flow rate increases then the orifice coefficient: Increases. Remains constant