Answer Posted / sam

Your UOM for flow is wrong, it cannot be a pressure UOM.
The 1200Kg/cm2 cannot be the DPT range either since a diff
pressure tx with a range of 1176Bar does not exist.

So unless you ask a sensible question with accurate and
detail information with it, and look at what you write
before you post the question, no one can or would want to
help you.

What is instrumentation technologists and mechanics?

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can anyone can let me know in Eurotron Micro cal 2+ calibrator in milli amps source mode we are not able to get 20 milli amps output it only produces 1.52 milli amps out, but display shows increase in milli amps , and err6 displays, let me know how to remove the err 6.

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what is exact time to study dcs and plc cources

1559

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how to commission furnace ( water heater)

1501

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What is difference between “Fault Tolerant” & “Fault avoidance” PLC? Application where these system s are used?

3441

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What are different types of control valves?

689

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If a warning lamp will operate with the ground circuit is bypassed with a jumper wire to ground, what should you check?

1621

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what is effect of specific gravity in differential level transmitter , explain formula related with this .

1225

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how does we calibrate a square root flow transmitter ,give an example and explain it step by step like range calculation , calibration hook up series connection , zero check , and how to apply pressure , and if not geting proportional output then what should we do ?

5226

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What is three element drum level control system why its better than single element?

2061

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how is work pressure switch& level switch?what is the principle of this?

2129

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What is the use of temprature compensation?

712

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what step is taken for ESD ( emergency shut down) in DCS REPLY to hashimka20009@gmail.com

1890

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Q1: Consider part of a control loop, which excludes the transmitter, consisting of a process, a controller and a control valve which may be represented by two dead times of 0.5 min each and three exponential lags of 0.8 min., 1.0 min. and 1.5 min. respectively. We wish to express this system as an overall first order plus dead time (FOPLD) model ie gain, time constant and process dead time. (We will see later that this is often done, to simplify controller tuning). For this exercise, gain is considered to be 1.0. (A) If the transmitter is a flow transmitter whose behaviour can be described by a dead time of 0.2 min. and an exponential lag of 0.5 min. in terms of the overall dead time and overall first order lag how can the system behaviour be approximated ? Overall dead time = Overall time constant = (B) If the transmitter is a temperature transmitter with a temperature sensor in a protecting well whose behaviour can be described by a dead time of 0.7 min. and an exponential lag of 15 min. how can the overall system behaviour be approximated now? Overall dead time = Overall time constant =

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What is Cavitation in a control valve?

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