PlantTriage Finds The Root Cause of Process Upsets
The Process Interaction Map finds the Root Cause of process upsets. The map:
- Identifies the Root Cause of Upsets
- Quantifies the Impact of Improvements
- Solves Interacting Loop Problems
- Provides In-depth Process Insight
According to Sabic Innovative Plastics, interaction maps solved a problem saving "over $1 million per year in energy consumption." Read the Aberdeen Group case study.
How the Interaction Map Works
The Process Interaction Map is a graphical display of the correlations between process variables. The strength of the correlation is shown by the strength of the color on the chart. Both positive (red) and negative (blue) correlations are shown.
Sort by strength of correlation, and you can immediately see which process variables have the strongest influence.
Find the Root Cause
Time-Shift Shows Cause and Effect
Process Interaction Map excels at finding the root cause of interaction problems. You can quickly identify root causes by looking for the strongest colors, furthest to the right.
On the Interaction Map, left and right represent the time axis. Strong colors on the left show likely "effects", because these variables lag behind the reference loop. Strong colors on the right are leading indicators, so these are likely causes.
The Interaction Map allows you to understand correlations between:
- Control Loops
- Process Conditions
- Ambient Temperature
Don't waste time. Go straight to the root cause with Process Interaction Maps.
Fix One, Solve Many
Quite often, the root cause is found upstream, often in the utilities area of the plant. When you identify the single root cause of the problem, you often stabilize many parts of the downstream process.
Quantify the Impact of Improvements
When you make an improvement to the process and controls, there is a "ripple effect" of benefits. Quite often, the major economic savings occurs downstream, away from the loop you tuned. To document the true value, you need to know where to look.
The Process Interaction Map makes it easy for you to identify affected control loops. Solving a level control problem might actual be reducing your energy costs! You just need to know where to look.
Solve Interacting Loop Problems
Some common types of interacting loops include:
- Cascade Controls
- Ratio Controls
- Feedforward Controls
- Recycle Streams
- Heat Integration
- Upstream or Downstream Process
Unless you know where to look, you can't solve these problems. The Process Interaction Map points you in the right direction, so you always know which loops have the strongest interactions.
Incredible Process Insights
Process engineers are often the most impressed with the Process Interaction Map. This is because it offers incredible insights into the performance of the process. You can answer questions like these:
- Which process setpoints have an impact on finished product quality?
- What is the effect of product mix on energy consumption?
- When we change raw materials, how long before the finishing unit is affected?
- Does the reactor temperature affect the product quality? By how much?
- What is the greatest source of process variability?
Aberdeen Group published "Operational Excellence in the Process Industries", which included a case study on Interaction Maps. Interaction Mapping Saves $1 Million: Read the Case Study.
Get the Big Picture with Interaction Hot Spots
Interaction Hot Spots graphically highlight interactions from across the plant. Using this tool, engineers can quickly find the root cause of process interactions. Upsets to quality, energy and shut downs are easily seen.
Interaction Hot Spots is also very useful as a tool for developing the scope of MPC projects.Learn More About Interaction Hot Spots
Get a Demonstration of PlantTriage
There is so much to see in PlantTriage. Get a private guided tour. Demo can be accomplished over the web, and takes about 1 hour.
Request a demonstration on-line or Contact ExperTune at +1 (262) 369 7711.