Hybrid data model for the improvement of an ultrasonic-based gravity measurement system

This contribution describes the online data processing of raw data collected from a system that is to determine the density of beer during fermentation by measuring the ultrasonic velocity. The ultrasonic velocity in pure liquids is highly correlated with the media's density. Transferring this principle directly to a fermenting liquid is rarely possible, because it possesses huge interferences from other process quantities like the temperature or the carbon dioxide concentration. Using the beer fermentation as an example process, different online filter steps are described which eliminate the Occurring influences. An artificial neural network (ANN), trained during the fermentation, compensates the temperature influence. A frequency analysis of the temperature eliminates existing disturbances caused by varying concentrations of carbon dioxide. An online estimation of the intrinsic parameters from unstructured model using a simplex algorithm for parameter optimisation sustains the measured quantities and grants predicting abilities. The system was applied to an industrial plant. For the extract (in brewing practise density is mostly expressed as the concentration of a corresponding saccharose solution with the same density at 20 degreesC. This physical quantity is called extract.) determination in fermenting beer the relative standard deviation (RSD) compared to an offline standard reference method Could be reduced from 0.49% to 0.14%. Thus, an enhanced process control strategy based upon the measured extract concentration is made possible. (C) 2002 Elsevier Science Ltd. All rights reserved.