Litcius/Paper detail

Control Method for Continuous Grain Drying Based on Equivalent Accumulated Temperature Mechanism and Artificial Intelligence

Zhe Liu, Xu Yan, Feng Han, Yaqiu Zhang, Guiying Wang, Zidan Wu, Wenfu Wu

2022Foods19 citationsDOIOpen Access PDF

Abstract

Grain drying is a complex heat and mass transfer process, which has the characteristics of a significant delay, multidisturbance, nonlinearity, strong coupling, and parameter uncertainty. Artificial intelligence (AI) control technology is suitable for solving such complex control problems. In this paper, the mechanism and data dual-drive with equivalent accumulated temperature (EAT) mutual-window AI-control method for continuous grain drying were proposed, and a control system was established. The experimental verification was carried out on the test platform of continuous grain drying. The results show that the method has the ability of implicit prediction, high accuracy, strong stability and self-adaptive ability, and the maximum control deviation of moisture at the outlet of the dryer is -0.58-0.3%.

Topics & Concepts

Mass transferBiological systemNonlinear systemCoupling (piping)Temperature controlStability (learning theory)Artificial neural networkMoistureControl theory (sociology)Process (computing)Computer scienceArtificial intelligenceMaterials scienceControl (management)Control engineeringEngineeringMachine learningChemistryComposite materialChromatographyPhysicsBiologyQuantum mechanicsOperating systemFood Drying and Modeling