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ERROR ANALYSIS AND METHOD FOR ERROR ESTIMATE

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ERROR ANALYSIS AND METHOD FOR ERROR ESTIMATE

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    1. ERROR ANALYSIS AND METHOD FOR ERROR ESTIMATE P M V Subbarao Professor Mechanical Engineering Department

    2. Theoretical to Actual Cycle

    3. Experimental Test Rig

    5. Pressure Transducer Quartz pressure sensor for measuring dynamic and quasistatic pressures up to 250 bar at temperatures up to 200°C. Very small dimensions, high natural frequency. The measured pressure acts through the diaphragm on the quartz crystal measuring element, which transforms the pressure p (bar) into an electrostatic charge Q (pC = pico-Coulomb). The stainless steel diaphragm is welded flush and hermetically to the stainless steel sensor body. Sensitivity 15.1 pC/bar

    8. Measurement of Pressure Vs Crank Angle in A Diesel Engine

    9. Measurement of Pressure Vs Crank Angle in A Diesel Engine

    12. Reaction to the Behaviour of Measured Values Is it a valid Measurement? Is it possible to improve the degree of truthfulness? How to compute the degree of truthfulness? What are the salient features of repeated measurements? Is it possible to control the variation?

    13. Classification of Errors Ideal Distinction: bias versus random errors Bias error is a systematic inaccuracy caused by a mechanism that can be (ideally) controlled. Measurements can be adjusted to account for bias errors. Random error is a non-repeatable inaccuracy caused by an unknown or an uncontrollable influence. Random errors establish the limits on the precision of a measurement. A more practical distinction of errors as three types of errors. Fixed errors Random errors Variable but deterministic errors Fixed errors and variable but deterministic errors are also called bias errors.

    14. Fixed Error All repeatable errors are fixed errors. A fixed error is the same for each nominal operating point of the system Sources of fixed error: Sensor calibration Fixed disturbance to system Examples A pressure gauge that always reads 20kPa high. Heat flow along thermocouple leads when measuring the temperature of an object. Effect of probe blockage on flow field downstream of the probe.

    15. Wheatstone Bridge for RTD

    16. Calibration Errors

    17. Reasons for Fixed Errors

    18. Random Error Random errors have different magnitude during subsequent measurements of the same quantity. For well behaved systems, random errors in a measurement cause a cluster of observed values. We will assume that random errors are normally distributed. This is reasonable for large sample sizes and truly random errors

    23. Variable but Deterministic Error Some errors that appear to be random can be caused by faulty measurement techniques or the errors may be variable but deterministic. Errors change even though the system is at the same nominal operating point Errors may not be recognized as deterministic: variations between tests, or test conditions, may seem random. Cause of these errors are initially hidden from the experimenter

    24. Variations in room air conditions such as temperature and air circulation patterns set-back thermostats solar radiation through windows presence of people in the room windows open to outside Changes in sensors Thermal drift of sensors Use of a new batch of thermocouple wire with different calibration Cold working of thermocouple wire Changes in consumable materials or equipment used in experiments Leakage or chemical degradation of working fluid Mechanical wear or misalignment of positioning equipment

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