By Béla Lipták
ACCORDING TO HANS Baumann, if existing control valves are built in conformance with IEC standard 60534-4-1, intelligent positioners can replace pneumatic or analog electronic positioners from the same supplier. Conformance to a new German VDI/VDE Standard 3847 would guarantee interchangeability between positioners made by different manufacturers.
The control signals into the smart positioners can be analog (4-20 mA) or digital (via bus systems). Among these, Foundation Fieldbus dominates in the USA, while Profibus is more commonly used in Europe.
Similar to electronic analog positioners, digital units are also available in “intrinsically safe” designs or with explosion proof housings, and are protected from EMC interference. They typically meet US/CSA as well as CENELEC (European) and CESI (Japanese) standards. The advantages of digital positioners relative to their analog counterparts are listed below:
- Increased accuracy, 0.1% to 1% vs. 0.3%-2% for analog.
- Improved stability, about 0.1% compared to 0.175%.
- Wider rangeability (without sacrificing accuracy) up to 50:1 compared to 10:1.
In addition, they are capable of performing multiple functions, self-testing and diagnostics; can be miniaturized, calibrated or adjusted without physical access to the instrument; and can use information that can not be measured or accessed by analog means.
Valve Performance Monitoring
Valve performance is usually monitored by checking valve calibration parameters, such as the zero position and the travel span of the valve. Additional tests can monitor the air pressure in the actuator as a function of stem travel and compare this signature against data that was obtained when the valve was newly installed.
A major deviation from the desired characteristic can be an indication of the valve stuffing box being too tight, the valve stem being corroded, or the actuator spring being damaged. When such conditions evolve, they can cause an increase in the dead band and the dead time of the valve, thereby creating a potential for instability and cycling in the control loop.
This test data can be called up via HART protocol and can be a vital part of the plant’s asset management system. Some believe such data could also be transmitted over a fieldbus to a computer by a digital signal while the valve is actively controlling the process. Others argue that to measure the valve’s performance, one has to provide an artificial offset to the control signal. Therefore, some plant operators are understandably reluctant to use this feature, because they fear that this offset to the control signal would cause too much disturbance to the process. As a result, one typically has to wait until the valve is out of service (process is shut down) in order to perform the functionality tests.
Future Trends and Tasks
Future uses of the intelligent positioner as “data transmitter” will no longer be restricted to monitoring the condition of the valve actuator but will most likely include:
- Monitoring the leakage of the valve’s packing box or bellows using the output of suitably placed pressure sensors, or by “sniffing” the ambient air around the valve stem to detect toxic substances by means of a miniaturized chemical detector.
- Checking for fluid leakage between plug and seat by measuring the sound frequency detected by a sound pressure transducer (located within the valve housing) and comparing that against a known frequency profile.
- Discovering excessive seat leakage by comparing the controller output signal at low flow conditions with the same signal that was measured for the same low flow rate when the valve was new. Excessive leakage would be indicated if less travel (less opening) was required to obtain the same flow as when the valve was new.
An important feature of all positioners is the time they take to either evacuate all the air from the actuator (if the valve is “air-to-open”) or to deliver the maximum air pressure to the actuator (if the valve is “air-to-close”) when the control signal calls for the valve to be closed. When this occurs, to avoid seat leakage the positioner output signal must change rapidly to apply the maximum actuator force to the valve plug.
Some digital positioners also provide memory-embedded data such as the serial number, date purchased, vendor, tag number, valve size, etc. These are all useful for asset management purposes and are especially handy when the original valve serial plate is corroded and has become unreadable.
Future intelligent positioners may be able to receive their control signal via radio transmission. The difficulties with such techniques include reliability, path loss, RF interference, multi-path radio echoes, and the required transmission power. Most of all, these positioners will still require sufficient electrical power to operate their pneumatic and electronic components. Consequently, valve positioners will never be truly “wireless.”
Changing the Valve’s Characteristics
Another common feature of digital positioners is their ability to modify the relationship between the controller’s output signal and the pneumatic output signal to the valve actuator. The effect of this relationship is to alter the valve’s inherent flow characteristic. In addition to “quick opening,” “linear” or “equal percentage,” characteristics can also be user defined and custom programmed.