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![Page 1: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/1.jpg)
1
Using an Operator Training Simulator in the Undergraduate
Chemical Engineering Curriculum
Debangsu Bhattacharyya1,2,
Richard Turton1,2
and Stephen E. Zitney1
1AVESTAR Center,
NETL, Morgantown, WV2West Virginia University,
Morgantown, WV
October 29, 2012AIChE Annual Meeting,
Pittsburgh, PA
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Outline
• What is an Operator Training Simulator (OTS)• Using the OTS in undergraduate education:
– Chemical Process Simulation course– Process Control Course
• Conclusions
![Page 3: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/3.jpg)
Operator Training SimulatorsAVESTAR Center at NETL AVESTAR Center at WVU
•Locations– NETL in Morgantown, WV– WVU, National Research
Center for Coal & Energy
•Facilities– OTS Room: Control Room
Divider for 2 Simulators
– ITS Room: Plant/Field – Local area network
•Training Systems– IGCC OTS
8 Operator Stations 2 Instructor Stations 2 Engineering Stations
– IGCC ITS 2 Field Stations 1 Instructor Station
AVESTAR Center Facilities
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IGCC with CO2 Capture Dynamic Simulator Reference Plant (2 Trains)
References• IGCC Case #2, Cost and Performance Baseline for Fossil Energy Power Plants Study, Volume 1:
Bituminous Coal and Natural Gas to Electricity, National Energy Technology Laboratory, www.netl.doe.gov, DOE/NETL-2010/1397, November 2010.
Plant Section Description
Gasification Entrained-flow Gasifier
Air Separation Elevated-P Cryogenic ASU (95% vol O2)
H2S Separation Physical Solvent AGR 1st Stage
Sulfur Recovery Claus Plant
CO2 Separation Physical Solvent AGR 2nd Stage
CO2 Compression Four stage (2200 psia)
Gas Turbines Adv. F Class (232 MW output each)
Steam Cycle Subcritical (1,800 psig/1,000ºF/1,000ºF)
Power Output 746 MW gross (556 MW net)
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Operator Training Simulators
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Operator Training Simulators
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Operator Training Simulators
![Page 8: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/8.jpg)
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(Courtesy of Invensys Operations Management)
HMI Displays for Plant Areas
Operator Training Simulators
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(Courtesy of Invensys Operations Management)
HMI Displays for Alarms and Trending
Operator Training Simulators
![Page 10: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/10.jpg)
Outline
• What is an Operator Training Simulator (OTS)• Using the OTS in undergraduate education:
– Chemical Process Simulation course– Process Control Course
• Conclusions
![Page 11: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/11.jpg)
Chemical Process Simulation course
Student exposure in Simulation Course
• 1st Lecture – discussed IGCC plant overview, key features of the OTS including:
• navigation between HMI screens and plant overview screens
• trending features• control panels and control operation• digital logic and permissives• alarms
• links to dynamic model through data historian and the emulation of the plant
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Chemical Process Simulation course
Student exposure in Simulation Course
• Simulation course ran for 6-8 weeks prior to a 1-day work session by the students starting up the Claus unit. Key features covered in the 1-day session were:
• Exposure to start-up procedures• Equipment preparation• Digital logic (switches and permissives)• Timing of actions• Different control strategies• Physical interpretation (analysis) of process changes
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Chemical Process Simulation course
Student exposure to OTS in Simulation CourseExample 1 - Start up procedures
Not all valves in P&ID are on HMI – remote function (RF) valves located in plant and are manually operated
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Chemical Process Simulation course
Student exposure to OTS in Simulation Course
Example 2 – Digital logic and permissives
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Chemical Process Simulation courseStudent exposure to OTS in Simulation CourseExample 2 - Digital Logic and permissives
![Page 18: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/18.jpg)
Chemical Process Simulation courseStudent exposure to OTS in Simulation Course
Example 3 – Physical Interpretation of Actions
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Outline
• What is an Operator Training Simulator (OTS)• Using the OTS in undergraduate education:
– Chemical Process Simulation course– Process Control Course
• Conclusions
![Page 20: 1 Using an Operator Training Simulator in the Undergraduate Chemical Engineering Curriculum Debangsu Bhattacharyya 1,2, Richard Turton 1,2 and Stephen.](https://reader035.fdocuments.net/reader035/viewer/2022062516/56649d9e5503460f94a88681/html5/thumbnails/20.jpg)
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Objectives
Use a state-of-the-art operator training simulator (OTS) for
teaching process dynamics and control to the undergraduates
Demonstrate the real life application of the control theory
Show the students where their current course work fits into the
real process plant
Demonstrate the crucial role that the control system plays
Demonstrate interactions between different
equipment/systems/variables
Provide the students with a big picture view as well as finer
details as much as tractable and applicable in about 4 hours of
time
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The Course at a Glance
The course focuses on dynamics and control of chemical processes.
This is a senior year course for Chemical Engineering undergraduates.
Currently there are 35 students in this class.
For the undergraduates, this is the only course so far concentrating on
both process dynamics and control.
Mainly linear single input single output (SISO) systems are studied.
Only software used (of course not considering the OTS demonstrations)
is Matlab/Simulink.
This is the second year when the dynamic simulator is being used in
teaching this course.
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Demonstration Outlines
The course can be broadly divided into two sections which are strongly coupled
with each other:
Process dynamics
Process control
A number of demonstration such as development of first principles dynamic
model, implementation of ideal forcing function, use and
advantages/disadvantages of various control strategies such as ratio control,
split-range control, cascade control, feedback-augmented feedforward control
are demonstrated
Process Dynamics examples shown here:
Time-delay systems
Process Control examples shown here:
Open-loop unstable systems
Closed-loop stability: Proportional gain for stability limits
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Time-delay Systems
Show how time-delay occurs in an actual plant
Coal feed to the plant is step decreased
Transient response in the CO2 composition at the inlet of the H2S
absorber is recorded
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CO2 concentration at the CO2 absorber inlet
1:32:11 pm
1:35:13 pm
CO2
absorber Inlet
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Open-Loop Unstable Systems
Case 1: Closed-loop system
Case 2: Open-loop system, emergency controller takes over
Case 3: Open-loop system, No emergency controller, plant shuts down
Demonstration example: Radiant syngas cooler (RSC) steam generator
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Case 1: Closed loop system
: Coal feed-flow is step increased
: Demonstrate control loop performance for disturbance rejection
: Demonstrate how different systems interact in an actual plant
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Interaction of the RSC steam drum with other systems
Main HP Steam Generation System
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Interaction of the RSC steam drum with other systems
HP Steam Header
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Case 2: Open-loop system, emergency controller takes over
: The plant still operates normally with a loss of efficiency
: Demonstrate the necessity of a “good design” for which the
dynamic consideration is crucial
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Case 3: Open-loop system, No emergency controller, plant shuts down
: Drum level decreases to a very low level triggering a plant shutdown
:Demonstrate other “lines of defense”- emergency shutdown system
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Closed-loop stability: Proportional Gain for Stability Limits
Students carry out closed-loop stability analysis (by Routh stability
analysis, direct substitution, etc.) to determine the limiting proportional
gain for stability of the closed-loop system.
Demonstration of the theory with the RSC pressure control by slowly
modifying the proportional gain.
Kc=1Kc=1Kc=1Kc=1 Kc=3Kc=3
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Practical Control Test
1. Choose any arbitrary flowsheet and any arbitrary controller. What are the input and output of the controller that you have selected? What are the input and output of the process that you have selected?
2. Draw a block diagram of the closed loop system. 3. Is this system open-loop stable? Why or why not? [Note: you can answer this
question theoretically or by carrying out an experiment] 4. What are the disturbance variables(s) for this system? 5. Check the controller performance for servo control. How did you check it?
What will you do to improve its performance for servo control further?6. Check the controller performance for regulatory control. How did you check it?
What will you do to improve its performance for regulatory control further? 7. Please note any loop interaction that you have observed while testing the
regulatory control.
A few sample questions:
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Conclusions
• A state-of-the-art dynamic simulator is being used for teaching process dynamics, control, and simulation to undergraduate students.
• Some examples are cited but many other possibilities exist. Your suggestions are welcome.
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Acknowledgement
National Energy Technology Laboratory (NETL)