Walid Hussein scite author profile

Fouling and cleaning in heat exchangers are severe and costly (up to 0.3% of gross national product) issues in dairy and food processing. Therefore, reducing cleaning time and cost is urgently needed. In this study, two classification methods [artificial neural network (ANN) and support vector machine (SVM)] for detecting protein and mineral fouling presence and absence based on ultrasonic measurements were presented and compared. ANN is based on a multilayer perceptron feed forward neural network, whereas SVM is based on clustering between fouling and no fouling using a hyperplane. When both fouling types (1239 datasets) were combined, ANN showed an accuracy of 71.9% while SVM displayed an accuracy of 97.6%. Separate fouling detection of mineral/protein fouling by ANN/SVM was comparable: dependent on fouling type detection accuracies of 100% (protein fouling, ANN and SVM), and 98.2% (SVM), and 93.5% (ANN) for mineral fouling was reached. It was shown that it was possible to detect fouling presence and absence offline in a static setup using ultrasonic measurements in combination with a classification method. This study proved the applicability of combining classification methods and fouling measurements to take a step toward reducing cleaning costs and time.

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A case study on using evolutionary algorithms to optimize bakery production planning

Hecker

Hussein

Emire

et al. 2013

Expert Systems with Applications

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Walid Hussein

On the usage of acoustic properties combined with an artificial neural network – A new approach of determining presence of dairy fouling

DETECTION OF THE RED PALM WEEVILRHYNCHOPHORUS FERRUGINEUSUSING ITS BIOACOUSTICS FEATURES

Detection of dairy fouling: Combining ultrasonic measurements and classification methods

A case study on using evolutionary algorithms to optimize bakery production planning

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