INCA Sensor

Download INCA Sensor brochure (PDF) 

Quality Control is currently realized by online analyzers and regular lab analyses. Yet online analyzers are expensive, often not available, and costly in maintenance, while lab samples are time-consuming and are frequently taken at a 4-hour interval, which is too long for closed loop quality control. A better alternative is soft sensor technology, which allows you to estimate product quality parameters in real time, so that you can start controlling quality in closed loop. This technology gives the plant operator and the control system the possibility to react faster to disturbances and keep product quality in-spec.

Applications of soft sensors

Soft sensors give you an estimate of parameters (such as these below) every
second, and allow you to control them in real time:
• Polymer densities • Polymer melt indexes • Viscosity parameters • Concentrations
of products at the outlet of a reactor, distillation column or blender • Color
parameters • Exhaust concentrations (NOx, CO2, dioxines, opacity, etc.) • Very
large flows (e.g. cooling water of a large power plant) • Plant efficiency. 

3 REASONS TO USE INCA Sensor

• INCA Sensor allows you to perform immediate quality control.
  
• The blue PDF curve shows how a typical plant is currently operated. The average quality parameter is located exactly in the middle of the quality specification region. With soft sensors and a powerful MPC controller like INCA MPC, the PDF curve narrows. This allows the operator or the INCA MPC controller to look for an average quality parameter realized at lower
  production costs.
• INCA Sensor is based on linear and non-linear identification techniques, PLS, genetic algorithms and fuzzy logic. INCA Sensor is an economic alternative to expensive online analyzers and lab tests which are less accurate and require higher maintenance costs.

INCA Sensor at work 

Offline tools

• File import: INCA Sensor retrieves data from databases very easily and supports all standard database interfaces (Excel, Text, Access, INCA Test etc.)
• Preprocessing (scaling, trend removal, (non-) linear operations on the signals, resampling, filtering)
• Variable selection: Helps you make a selection of input signals from the huge pool of process data, based on the desired accuracy
• Model design: Several techniques are used to develop the inferential sensor such as generalized non-linear modeling; PLS; fuzzy logic; graphical analysis and evaluation.

On-line tools

• Communicate with all common RTDB’s, PLC’s and DCS systems
• Fully configurable, requires no programming
• Real-time pre-processing and spike rejection
• Operator interface to update lab measurements
• Prediction calculation and update
• Generate confidence levels for the predicted outputs, indicating the reliability
  of the predictions
• Fully configurable alarm generation
• INCA Sensor operates as a stand-alone toolkit or within the IPCOS integrated
• Solutions Platform environment.