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- 1. BASIC FLOW INSTRUMENTATION AND VENTURIMETER subject: Process ControlandAutomation Aishwarya D Madan Y N Departmentof BiotechnologyEngineering AcharyaInstituteof Technology Soladevanahalli,Bengaluru 560107
- 2. Contents: Instrumentation • Types of instrumentation • Temperature measurements • Flow measurements Venturimeter • Introduction • Principle • Diagram • Construction • Working
- 3. Instrumentation that branch of science which deals with control and measurement of physical properties of matter like solid liquid and gas
- 4. Types of Instruments: • Mechanical • Electrical • Electronics 4
- 7. Introduction: A Venturimeter is a device used for measuring the rate of flow of a fluid flowing through a pipe. It is also called as venturi flowmeter. It is used to calculate the velocity of fluids running through a pipeline. The fluid may be liquid or gas.
- 8. Principle: It is based on Bernoulli’s equation that is the velocity head increases in an accelerated flow by reducing the cross sectional area of the flow passage. Due to which the pressure head is reducing at that section, a pressure difference is created which enables to the determination of the discharge through the pipe.
- 9. “ Diagram: 9
- 10. Construction: It has three main parts: 1.Short converging part: It is a tapered portion whose radius decreases as we move forward. 2.Throat: It is middle portion of the venturi. Here the velocity of the fluid increases and pressure decreases. It possesses the least cross section area. 3.Diverging part: In this portion the fluid diverges. 1 0
- 11. Working: The venturimeter is used to measure the rate of flow of a fluid flowing through the pipes. 1. Here we have considered two cross section, first at the inlet and the second one is at the throat. The difference in the pressure heads of these two sections is used to calculate the rate of flow through venturimeter. 2. As the water enters at the inlet section i.e. in the converging part it converges and reaches to the throat.
- 12. 3. The throat has the uniform cross section area and least cross section area in the venturimeter. 4. Now there is a pressure difference of the fluid at the two sections. At the section 1,the pressure of the fluid is maximum and the velocity is minimum. And at the section 2 ,the velocity of the fluid is maximum and the pressure is minimum. 5. The pressure difference at the two section can be seen in the manometer attached at both the section. 6. This pressure difference is used to calculate the rate flow of a fluid flowing through a pipe.
- 13. Here, a1, a2 = Area of cross-section at inlet and throat g – Acceleration due to gravity h – Pressure head difference Cd = Coefficient of discharge 1 3
- 14. Applications: 1.Aviation: To measure the speed of the air around the plane. 2.Automotive: To measure the fuel and air distribution in carburettor 3.Medical: To measure the Volume flow of blood through vessels. 4.Chemical: To measure the Flow rate of chemical through pipes. 15
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