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Industrial Instrumentation

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Title: Industrial Instrumentation


1
Industrial Instrumentation
  • (Instruments, Importance, Characteristics and
    case studies)

2
  • Presenter
  • Muhammad Khurram
  • 07-Chem-45

3
Instruments
  • Instruments are devices that measure and regulate
    the process variables, such as flow, temperature,
    pressure, level.
  • Basic measurements in process industries
  • Temperature
  • Pressure
  • Level
  • Flow

4
Temperature sensors
  • RTDs
  • Thermocouple
  • Infrared thermometry
  • Pyrometers
  • Thin film heat flux gauge

5
Pressure sensors
  • Hydrostatic pressure gauges
  • McLeod gauge
  • Aneroid
  • Bourdon tube gauge
  • Thermal conductivity gauges
  • Pirani gauges
  • Molecular method
  • Hot cathode and cold cathode

6
Level sensors
  • Sight glass
  • Magnetic float method
  • Cable and float
  • Conductivity method
  • Resistance wire
  • Float and hydraulic pressure
  • Strain gauge

7
Flow meters
  • Direct volume measurement
  • Displacement method
  • The voltage created by a moving liquid
  • The amount of heat required to raise the
    temperature by known value
  • Venturi tube
  • Flow nozzle
  • Orifice plate

8
Importance of industrial instrumentation
  • Greater safety of operation
  • Better Quality of products
  • Greater operation economy

9
Performance characteristics of Instruments
  • Static Characteristics
  • Characteristics which are
    related to instruments when there is no change in
    conditions with time.
  • Dynamic Characteristics
  • Characteristics which are
    related to instruments when there is change with
    respect to time.

10
Static Characteristics
  • Accuracy
  • Degree of conformity of an indicated value to
    a recognized accepted standard value, or ideal
    value.
  • Static error
  • The difference between measured and actual
    value.

11
Reproducibility
  • Closeness of agreement among a number of
    consecutive measurements of same variable under
    same operating conditions over a period of time
    approaching from both directions
  • Drift
  • Measure of difference in Repeatability
  • Two ways to find drift
  • Point Drift
  • Calibration Drift

12
Sensitivity
  • The ratio of the change in output magnitude to
    the change of the input which causes it after the
    steady state has been reached.
  • Dead Zone
  • Dead zone is the largest range of values of a
    measured variable to which the instrument does
    not respond. Sometimes also called dead spot or
    Hysteresis.

13
Repeatability
  • Closeness of agreement among a number of
    consecutive measurements of the output for the
    same value of the input under same operating
    conditions, approaching from same direction.
  • Precision
  • The degree of exactness for which an instrument
    is designed or intended to perform is known as
    precision

14
Other characteristics are
  • Range
  • Span
  • Resolution
  • Hysteresis
  • Linearity
  • Backlash


15
Linearity
  • Linearity describes the closeness of a curve to a
    straight line

16
Backlash
  • Backlash, also called lash or play, is basically
    clearance between mating components, may also be
    described as the quantity of lost motion
    clearance or slackness when movement is reversed
    and contact is re-established. For example, in
    pair of gears, backlash is the clearance between
    mated gear teeth
  • Lack of backlash causes
  • Noise
  • Overheating of gears and bearings
  • Seizing and failure

17
Dynamic characteristics
  • Speed of response
  • Lag
  • Fidelity
  • Dynamic error

18
Case studies
  • Exothermic reaction in CSTR
  • Following diagram is of continuous stirred
    tank reactor where gas phase exothermic reaction
    is taking place. The reaction temperature is to
    be maintained at 250 degree centigrade. Reactor
    is supplied with cooling water in the jacket
    outside the reactor. Pressure inside reactor
    becomes danger when reactor becomes full of
    reactants. So continuous monitoring of pressure
    is also required. How these two factors can be
    controlled effectively and which type of sensors
    will be used?

19
Solution
  • The temperature will be controlled by
    controlling cooling water outlet temperature.
    This can be simply done by using thermocouple
    because it is easily installed and low cost.
    Reactor pressure will be controlled by using
    Pirani gauge to control reactants pressure.

20
Storage tank case
  • Condensed product from reactor is fed into a
    storage tank. When the storage tank became full
    then it can clog the reactants in reactor. It is
    decided that condensed product is allowed to fill
    the tank upto 90 of total volume to efficiently
    control the process. If level increases 90
    alarming situation can occur. What type of level
    sensor will be used?

21
Solution
  • Float will be used for level control because
    it is hi level control system. And level
    controller will be connected with the inlet and
    outlet valves. On alarming situation controller
    will open the drain valve and close the inlet
    valve.

22
Reliable level measurementincreases quality
andconsistency in commercialsoup production
  • Challenge
  • Selection of level sensor for soup production
    kettle. Level controlles the agitators speed in
    the kettle for mixing ingredients.

23
Solution
  • Sensor which dont have direct contact with
    soup in the kettle will be used. Radar sensor is
    best suited for this situation.

24
Heat Exchanger Case study
25
Solution
26
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27
References
  • Books
  • Fribance, Austin. E. Industrial Instrumentation
    Fundamentals. New York McGraw- Hill, 1962 (a)
    p.3-10 (b) p.298-305.
  • Eckman, Donald. P. Industrial Instrumentation.
    New York John Wiley Sons, Inc, 1957 page.1-12.
  • Krishnaswamy, K., and S. Vijayachitra. Industrial
    Instrumentation, 1st ed. New Delhi New Age
    International (P) Limited, 2005 p. 5-11.
  • Padmanabhan, Tattamangalam. R. Industrial
    instrumentation Principles and Design. London
    Springer-Verlag London limited, 2000 page.9-18.

28
  • 5) Padmanabhan, Tattamangalam. R. Industrial
    instrumentation Principles and Design. London
    Springer-Verlag London limited, 2000 page.9-18.

29
Websites
  • 6) Halley Crast, Andrew Laskowski, Maurice
    Telesford, Emily Yatch, (December 14, 2009). PID
    standard notation online. Availablehttp//contr
    ols.engin.umich.edu/wiki/index.php/PIDStandardNota
    tion. Accessed 28 October,
  • 2010
  • 7) Assist. Prof. Pakorn Kaewtrakulpong, Ph.D. INC
    KMUTT. Generalized Performance Characteristics of
    Instruments online. Available
  • http//www.inc.eng.kmutt.ac.th/inc100/100_inst
    ru_charac_new.pdf. Accessed 28 Oct, 2010

30
  • 8) Overview of Temperature Measurement
    online.
  • Available eng.sjsu.edu//Overview20ofTemp
    erature20Measurement.ppt Accessed 25 Oct,
    2010
  • SMD Fluid Control, (2002). Float switch and
    Liquid level sensor online. Available
  • http//www.fluidswitch.com. (Accessed 25
    Oct, 2010)
  • 10) Wet Labs, (2006). Float Sensors users guide
    online.
  • Available http//www.wetlabs.com/products/p
    ub/flowsensor/flowsensorf.pdf. Accessed 25 Oct,
    2010
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