2010 06 Whats Going on With Loop Performance
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Transcript of 2010 06 Whats Going on With Loop Performance
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By Greg McMillan and Stan Weiner
Greg McMillan and Stan Weiner bring their wits and more than 66
years of process control experience to bear on your questions,
comments, and problems.
Write to them [email protected].
Stan: There are a lot of diverse processes and applications out there. We all tend to think
our loop performance problems are unique.
Greg: But a deeper understanding of concepts will guide you through the thousands of
details to the source of the problem and the most effective solution.
Stan: We've picked Mark Coughran, a senior industry consultant in Global IndustrySolutions at Emerson Process Management in Austin, Texas, and previously a research
specialist in the Research and Test Department at Fisher Controls in Marshalltown, Iowa, to
be our guide.
Greg: For you as a troubleshooter, what are the most common performance problems?
Mark: I am seeing integrator loop tuning and valve response problems in all of the process
industries in plants all over the world.
Stan: Why are these problems so prevalent?
Mark: First, valve specifications generally do not have entries for valve performance
requirements. The tuning for integrating loops also is different and counterintuitive. Finally,
plants are being built where there is no expertise.
Greg: What valve response parameters are most critical for loop performance?
Mark: The key parameters are valve dead band from backlash and shaft windup, resolution
limits from stiction, and the installed characteristic that is the result of the inherent valve
Do You Know What the Most Common Performance Problems
Are
06/07/2010
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characteristic, fluid properties and the process pressure at the valve inlet and outlet. Dead
band and resolution are lost motion, and the slope of the installed characteristic is the valve
gain. The control valve is the principal source of nonlinearity and limit cycling in control
loops. Split-ranged valves and integrating processes are particularly susceptible to valve
response problems.
Stan: Dead band, stiction and characteristic nonlinearity are generally greatest near the
closed position. The transition between cooling and heating for temperature control and
acid and base reagent for pH control requires operation near the closed position of all
valves at the split-range point. I have seen a lot of loops cycling across the split-range
point, wasting energy and reagent. So what I am hearing is we have a double hit. What
processes have an integrating response?
Mark: Batch temperature, bioreactor process variables (dissolved oxygen, pH and
temperature), some gas pressures, level, dissolved solids and impurity concentrations in
processes with large recycle streams have integrating responses. Composition,
temperature and pH loops in continuous processes with a large dominant process time
constant have a near-integrating response. To shorten tuning tests dramatically, these
extremely slow self-regulating processes can be tuned as integrating processes.
Greg: These are important loops in terms of process yield and efficiency, since analyzers
provide direct measurements, and temperatures provide inferential measurements ofprocess composition. How about an example of a typical tuning mistake?
Mark: A drum level loop was cycling with a controller gain of 1 and a reset time of 20
seconds. The settings that proved best ended up being a controller gain of 12 and a reset
time of 2000.
Greg: This is consistent with my experience that loops with integrating processes are
running with a significantly smaller than desirable controller gain and a reset time at least
an order of magnitude too low. I have had success increasing the reset time by a factor of
10 as a quick fix until an auto tuner can give results. This is a move in the more stable
direction. If the reset time is not greater than 300 seconds, and the controller gain is not
greater than three, then the tuning settings are probably too low. More than two significant
figures is wishful thinking.
Mark: If the controller gain is too low, you become more sensitive to reset action. The
product of the controller gain and integral time must be greater than four divided by the
integrating process gain (See Equation 10 in Adaptive Level Control or below).
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Thus, you can reduce slow rolling oscillations and overshoot by increasing the controller
gain. This is counterintuitive because we are taught that a lower gain and slower tuning
provides a smoother over-damped response.
Some integrating processes, such as header pressure and jacket temperature control, have
a lead time where the initial rate of change is much faster than the eventual rate of change
of the process variable. The tuning rules for integrating processes are not well known, and
the tuning rules to deal with a lead time are particularly rare. Most of the tuning rules in theliterature are for self-regulating processes with a first order (single lag) plus dead time
response approximation. The user doing trial-and-error tuning finds it especially difficult for
integrating processes.
Stan: In an inverse response where the process variable first moves in the opposite
direction of the final response, you have to back off on the controller gain. Drum level,
column sump level and furnace pressure can have an inverse response. In modern plants,
the degree of inverse response has decreased. Pre-heating feed water and air by flue
gases for energy recovery has reduced the inverse response for boilers and furnaces. For
column sump level, the inverse response is only seen when steam is manipulated to control
level, not a preferred control scheme unless the bottoms flow is too small for level control.
Mark: I have seen a lot of loops where the filter time was too small or too large. If the filter
time is too small, noise causes the valve to move, which self-inflicts a disturbance and
wears out the packing. If the filter time is too large, the loop may oscillate, since integrating
process performance and tuning is particularly sensitive to the additional lag.
Stan: What do you recommend projects do for these important loops?
Mark: I recommend that users request the supplier to provide the dead band, resolution,
response time and installed characteristic for control valves. These lost-motion and
response parameters should be the results of small steps in valve signal (e.g. 0.5%) per the
current test methods established by the ISA-75.25.01-2000 (R2006). The user should plot
the integrating process gain, which is the product of the control valve gain, process variable
gain and measurement span gain, versus controller output. The control valve gain is the
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slope of the flow versus stroke plot of an installed characteristic curve. The process variable
gain is the slope of a plot of the ramp rate of the process variable versus valve flow
provided by the process engineer for various setpoints, and the measurement span gain is
100% divided by the process variable span used by the controller. The resulting integrating
process gain must have dimensions of % PV per sec per % flow (units of 1/sec). The user
should use tuning rules for integrating processes to estimate tuning settings, and decide if
gain scheduling is needed for changes in the gain with operating point. Once the loop is
commissioned, auto tuners and adaptive controllers should be used to identify the actual
integrating process gain and dead time for the expected range of setpoints and load
disturbances.
Greg: The installed characteristic and lost motion near the seat determine the real
rangeability of the control valve as estimated by the equations on slide 21 of Deminar #2
posted April 22, 2010 on http://modelingandcontrol.com/. Deminar #2 and its posted review
also provide a more in-depth discussion of dead band (backlash), resolution (stiction) and
the resulting limit cycles.
Top Ten Things You Don't Want to Hear in a Project Definition Meeting
10. I don't want any smart instrumentation talking back to me.
9. Let's study each loop to see if the valve really needs a positioner.
8. Let's slap an actuator on our piping valves and use them for control valves.
7. We just need to make sure the control valve spec requires the tightest shutoff.
6. What is the big deal about process control? We just have to set the flow per the PFD.
5 Cascade control seems awfully complex.
4. The operators can tune the loops.
3. Let's do the project for half the money in half the time.
2. Let's go with packaged equipment and let the equipment supplier select and design theautomation system.
1. Let's go out for bids and have the purchasing agent pick the best deal.
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