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Solving Boiler Drum Level Swings
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Jim Cahill
9 Sep 2014
Process Optimization
Solve & Support
Mark Coughran
Variability Management
lambda tuning
boiler efficiency
Entech Toolkit
PID controller
feedwater flow
industrial energy
boiler drum level
boiler reliability
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Solving Boiler Drum Level Swings
Effectively controlling the drum level in an industrial boiler helps to maximize overall energy efficiency. When the drum level varies it can not only impact boiler efficiency, but overall reliability due to unplanned shutdowns. Mark Coughran Process Control Consultant Emerson’s Mark Coughran shared a story with me about a major North American university that was having difficulty with one of the boilers that supplies steam to the campus. The drum level on this boiler has alarms at +4 and -4 inches of water. It will shut off the fuel on -6 inches of water. The preferred setpoint (SP) for efficiency is 0 inches of water. However, due to a large cycle on the drum level process variable (PV), the operators preferred to raise the setpoint and live with frequent high PV alarms. Mark used the EnTech Toolkit , which showed that the boiler level process had an unusually sluggish response to changes in feedwater flow. The sluggish process response is not amenable to auto-tuning algorithms, trial-and-error, or shortcut tuning methods. He noted that it is also difficult to control with a conventional proportional+integral (PI) controller ; however, using derivative action (PID) can be tricky and is avoided by most people....
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