Transcript
University of Engineering and Technology TaxilaMechanical Engineering Department
Lecture No: 01
Course Title: Measurement and Instrumentation (ME-314)
Tutor: Khalid Masood Khan
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Recommended Books
1. Thomas G. Beckwith, John H. Lienhard V and Roy D. Marangoni: Mechanical Measurements, 6th Edition, © 2007 Pearson Education Inc.
2. Richard S. Figliola and Donald E. Beasley: Theory and Design for Mechanical Measurements, 3rd Edition, © 2004 John Wiley & Sons Inc.
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Variable
• Variable is the quantity targeted for measurement
• It can be independent or dependent, continuous or discrete
• Engineering variables such as displacement, pressure, strain, or temperature are continuous
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• A variable is controlled if it can be held at a constant value or at some prescribed condition during a measurement
• Variables that are not or cannot be controlled during measurement but affect the value of the variable measured are called extraneous variables
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Parameter
It is a functional relationship between variables.
Example is a fan flow coefficient (C1).
C1 = Q / (nd3) = f (Q, n, d)
WhereQ = flow raten = fan rotational speedd = fan diameter
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Measurement
• The process of quantifying a parameter
• An act of assigning a specific value to a physical variable
• Objective is to establish the value or the tendency of some variable
• Determination of amount/extent of a physical variable
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Mechanical Measurement
• Every thing that exists is related to the practice of mechanical engineering
• The determination of the amount/extent constitutes the subject of mechanical measurement
• The means to achieve the measurement may or may not be mechanical
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Significance of Mechanical Measurement• An essential activity in every branch of science and technology
• Allows monitoring and control of processes and operations • Temperatures, flows, pressures, and vibrational amplitudes monitored by measurement to ensure proper system performance
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• Allows experimental engineering analysis
• Measurement is one of the important basic subjects for engineers and scientists
• Measurement and the correct interpretation thereof are necessary parts of any engineering and development program
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• All research, design and development is based on measurement
• The experimental element of a product/process development is based on measurement
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Experimental Test Plan
• Conceptualize the factors that influence the test
• Plan the experiment around these factors
• Define test objectives
• Identify process variables, parameters, and means for their control
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• Define tolerances for errors
• Select measurement technique, equipment, and test procedure
• Plan in advance on how to analyze, interpret, and present the expected data
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True Value and Measured Value
• The input to the measurement system is the true value of the variable called measurand
• Output is the measured value
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Act/Process of Measurement
• Obtaining a quantitative comparison between a predefined standard and a measurand
• The act of measurement produces a result
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Measurement System
• A measurement system is an information system which presents an observer with a numerical value corresponding to the variable being measured.
• Measurement system is meant to include all components in a chain of hardware and software that leads from the measured variable to processed data.
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Measurement System Elements
There are four types and, in a system, one type of element may be missing or may occur more than once.
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1. Sensing Element (The Sensor)
The sensor is a physical element that uses some natural phenomenon to sense the variable being measured.
Examples:• Energy exchange between the liquid (the sensor) contained in the bulb of a thermometer and the surrounding air is the input signal
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• Thermocouple is the sensing element that measures temperature
• Load cell in a strain gauge is the sensing element that is used to measure mechanical strain
• Orifice plate is the sensing element that is used to measure the flow rate
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2. Signal Conditioning Element (The Transducer)
• The transducer takes output from the sensing element and converts it into a form more suitable for further processing. The transduced signal form might be electrical, mechanical, optical, etc.
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• Transducer may include both sensing and signal processing units. Each element in the measurement system may itself be a system made up of simpler components.
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Examples:
• Thermal expansion forces the liquid into the narrow capillary (transducer) of the bulb thermometer. It transforms thermal information into a mechanical displacement.
• Deflection Bridge converts an impedance change into a voltage change
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• Amplifier amplifies millivolts to volts
• Oscillator converts an impedance change into a variable frequency voltage
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3. Signal Processing Element
Takes the output of the conditioning element/ transducer and converts it into a form more suitable for presentation.
Example:• Analogue-to-Digital-Converter takes analogue signal as input and converts it to digital form for input to a computer.
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