AgriEngineering (Dec 2023)

Dynamic Behavior Forecast of an Experimental Indirect Solar Dryer Using an Artificial Neural Network

  • Angel Tlatelpa Becerro,
  • Ramiro Rico Martínez,
  • Erick César López-Vidaña,
  • Esteban Montiel Palacios,
  • César Torres Segundo,
  • José Luis Gadea Pacheco

DOI
https://doi.org/10.3390/agriengineering5040149
Journal volume & issue
Vol. 5, no. 4
pp. 2423 – 2438

Abstract

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This research presents the prediction of temperatures in the chamber of a solar dryer using artificial neural networks (ANN). The dryer is a forced-flow type and indirect. Climatic conditions, temperatures, airflow, and geometric parameters were considered to build the ANN model. The model was a feed-forward network trained using a backpropagation algorithm and Levenberg–Marquardt optimization. The configuration of the optimal neural network to carry out the verification and validation processes was nine neurons in the input layer, one in the output layer, and two hidden layers of thirteen and twelve neurons each (9-13-12-1). The percentage error of the predictive model was below 1%. The predictive model has been successfully tested, achieving a predictor with good capabilities. This consistency is reflected in the relative error between the predicted and experimental temperatures. The error is below 0.25% for the model’s verification and validation. Moreover, this model could be the basis for developing a powerful real-time operation optimization tool and the optimal design for indirect solar dryers to reduce cost and time in food-drying processes.

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