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Describe different properties of fluids.
Different properties of fluids are as follows:- 1. Density (ρ) Definition: Density is the mass per unit volume of a fluid. Formula: ρ=mV\rho = \frac{m}{V}ρ=Vm Where mmm is mass and VVV is volume. Units: kg/m³ (in SI units). Importance: Density determines the buoyancy of a fluid and affects the flowRead more
Different properties of fluids are as follows:-
1. Density (ρ)
2. Viscosity (μ)
3. Surface Tension (σ)
4. Compressibility (β)
5. Specific Volume (v)
6. Pressure (P)
7. Temperature (T)
8. Specific Gravity (SG)
Explain the construction and working of Orifice meter and Venturi meter.
Orifice Meter Construction: An Orifice Meter is a device used to measure the flow rate of a fluid in a pipe. It consists of the following components: Orifice Plate: A thin plate with a precisely sized hole (orifice) in the center, which is installed perpendicular to the flow direction of the fluid.Read more
Orifice Meter
Construction:
An Orifice Meter is a device used to measure the flow rate of a fluid in a pipe. It consists of the following components:
Working:
When a fluid flows through the pipe, it is forced through the small hole in the orifice plate. According to Bernoulli’s principle, the velocity of the fluid increases as it passes through the orifice, causing a drop in pressure. This pressure drop can be measured by the differential pressure gauge. The relationship between the flow rate and the pressure drop is given by the continuity equation and Bernoulli’s equation
Venturi Meter
Construction:
A Venturi Meter is another device used for measuring fluid flow, but it operates on the principle of gradual changes in pipe diameter. Its key components include:
Working:
The fluid flows into the converging section of the Venturi meter, where its velocity increases and pressure decreases due to the reduced cross-sectional area. At the throat, the velocity is at a maximum, and pressure is at a minimum. As the fluid exits the throat into the diverging section, the velocity decreases and pressure increases.
The flow rate is determined by measuring the pressure difference between the inlet and the throat.
See lessExplain Priming and Cavitation.
Priming: Priming refers to the process of filling a pump or pumping system with liquid to remove air or vapor before the pump can operate effectively. Priming is necessary for certain types of pumps, especially positive displacement pumps or centrifugal pumps, which rely on the fluid to create suctiRead more
Priming:
Priming refers to the process of filling a pump or pumping system with liquid to remove air or vapor before the pump can operate effectively. Priming is necessary for certain types of pumps, especially positive displacement pumps or centrifugal pumps, which rely on the fluid to create suction and generate flow. If a pump is not primed properly, it cannot generate the required suction, leading to failure in operation.
How Priming Works:
Cavitation:
Cavitation is a phenomenon that occurs when the local pressure in a fluid falls below its vapor pressure, leading to the formation of vapor bubbles. These bubbles then collapse violently when they encounter higher pressure areas, causing damage to the surface of pump components, pipes, or other parts of the system.
How Cavitation Occurs:
Explain the different types of flows in detail.
Types of flows:- 1. Laminar Flow: Definition: In laminar flow, fluid particles move in parallel layers or streamlines with minimal mixing between the layers. The flow is smooth and orderly. Characteristics: The fluid velocity is low, and the Reynolds number (Re) is less than 2000. The flow is typicaRead more
Types of flows:-
1. Laminar Flow:
2. Turbulent Flow:
3. Transitional Flow:
4. Steady Flow:
5. Unsteady Flow:
6. Uniform Flow:
7. Non-Uniform Flow:
8. Compressible Flow:
9. Incompressible Flow:
10. Rotational Flow:
11. Irrotational Flow:
Write the difference between Orifice meter and Venturi meter?
Difference between orificemeter and venturimeter:- 1. Design and Construction:- Orifice Meter: Consists of a flat plate with a hole (orifice) in the center, installed perpendicular to the flow. The pressure difference is measured across the orifice. Venturi Meter: Has a gradually narrowing section (Read more
Difference between orificemeter and venturimeter:-
1. Design and Construction:-
2. Flow Characteristics:
3. Pressure Drop:
4. Accuracy:
5. Cost:
6. Applications:
7. Maintenance:
Explain the limitations of Bernoulli’s equation.
The limitations of Bernoulli’s equation are as:- 1. Incompressible Fluids Only:- Bernoulli's equation assumes that the fluid is incompressible, meaning its density remains constant throughout the flow. This is generally valid for liquids like water but not for gases, especially at high velocities orRead more
The limitations of Bernoulli’s equation are as:-
1. Incompressible Fluids Only:-
2. Non-Viscous Fluid:-
3. Steady Flow:-
4. Flow Along a Streamline:-
5. No Energy Losses:-
6. Neglecting Gravitational Effects in Some Cases:-
7. Requires Ideal Flow Assumptions:-
8. No Boundary Layer Considerations:-
Give the classification of pressure measuring devices.
Pressure measuring devices can be classified based on various factors such as their working principle, measurement range, accuracy, and the type of pressure they measure. But we are classified on the basis of mechanical pressure gauges:- 1) Bourdon Tube Pressure Gauges: Utilize a curved tubeRead more
Pressure measuring devices can be classified based on various factors such as their working principle, measurement range, accuracy, and the type of pressure they measure. But we are classified on the basis of mechanical pressure gauges:-
1) Bourdon Tube Pressure Gauges: Utilize a curved tube that straightens when pressure is applied.
2) Diaphragm Pressure Gauges: Use a flexible diaphragm that deforms under pressure.
3) Bellows Pressure Gauges: Utilize a metal bellows that expands or contracts with pressure changes.
4) Manometer (U-Tube): A simple device that measures pressure by balancing a column of liquid (e.g., mercury or water) against the pressure.
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