Course Details
Subject {L-T-P / C} : EC6301 : Industrial Instrumentation { 3-0-0 / 3}
Subject Nature : Theory
Coordinator : Prof. Umesh Chandra Pati
Syllabus
Module1: Introduction:
Introduction to the industrial instrumentation, Need for industrial instrumentation, Industrial process variables, Types of instruments, Functional elements of an instrument, Static & dynamic characteristics of an instrument.
4 Hours
Module 2: Pressure measurement:
Introduction to pressure measurement,
Measurement of mid-range pressures – U-tube manometer, Dead-weight gauge, Diaphragm, Bellows, Bourdon tube,
Low- pressure measurement - McLeod gauge, Thermal conductivity gauge, Ionization gauge,
High pressure measurement – Bridgman gauge.
5 Hours
Module 3: Temperature measurement:
Introduction to temperature measurement, Methods of temperature measurement,
Thermal expansion methods – Liquid-in-glass thermometer, Bimetallic thermometer, Pressure thermometer,
Thermoelectric sensors – Thermocouple,
Varying-resistance devices – Resistance thermometers, Thermistors,
Radiation methods – Radiation fundamentals, Radiation thermometers – Unchopped broad-band radiation thermometer, Chopped broad-band radiation thermometer, Narrow-band radiation thermometer, Optical pyrometer, Two-color radiation thermometer, Blackbody-tipped fiber optic radiation thermometer.
7 Hours
Module 4: Flow measurement:
Introduction to flow measurement, Laminar and turbulent flow, Total energy and conservation of energy, Types of flow meters, Close channel and open channel flow meters. Methods of flow measurement.
Differential pressure flow meters – Orifice, Nozzle, Venturi tube, Dall flow tube, Pitot tube,
Variable-area flow meter, Turbine flow meter, Vortex shedding flow meter, Positive displacement flow meter,
Noninvasive methods – Electromagnetic flow meter, Ultrasonic flow meter, Laser-Doppler flow meter.
7 Hours
Module 5: Level measurement:
Introduction to level measurement,
Different level instruments: Dip Sticks, Float systems, Pressure measuring devices, Ultrasonic level gauge, Capacitive devices, Radiation methods, Thermal effect types, Electrical methods.
4 Hours
Module 6: Fiber optic sensors:
Introduction to fiber optic sensors, principle of optical fiber, Fiber optic sensors: Extrinsic sensor, Intrinsic sensor, Intensity modulated sensor, Phase modulated sensor, Frequency modulated sensor, Wavelength modulated sensor, Polarization modulated sensor, Scattering loss modulated sensor.
5 Hours
Module 7: Miscellaneous measurements:
Humidity, Chemical composition, PH measurement, some recent advancement.
3 Hours
Course Objectives
- To make students familiar with the measurement of pressure, temperature, flow, level, humidity, and chemical compositions.
- To provide knowledge of different fiber optic sensors.
- To make students able to select suitable sensor system and analyze the system for a given industrial application.
Course Outcomes
After successful completion of the course a graduate should be able to <br /> <br />CO1: Explain the construction and working of various industrial instruments used to measure pressures of different ranges. <br />CO2: Explain the construction and working of various industrial instruments used to measure flow and level. <br />CO3: Distinguish between the different methods of temperature measurement. <br />CO4: Illustrate the working of different fiber optic sensors. <br />CO5: Select and analyze proper instrument for the given industrial application
Essential Reading
- E.O. Doebelin, Measurement Systems, Application and Design, McGraw Hill International Edition, 2017
- Allan S. Morris, Principles of Measurement and Instrumentation, Prentice Hall of India
Supplementary Reading
- J. P. Bentley, Principle of Measurement Systems, Pearson Education, 2015
- C.S. Rangan, G.R. Sarma and V.S.V. Mani, Instrumentation Devices and Systems, Tata McGraw Hill.