Abstract
The temperature control inside a hybrid dryer has always remained the main concern in drying applications. At present, the majority of the drying community researchers use classical controllers to command the thermal environment inside the drying chamber. Such a control strategy leads to diminish the dryer efficiency and alters the quality of the dried products. In this regard, the objective of this work is to develop an advanced temperature control system for the thermal management of a hybrid solar-electrical dryer. In addition, the proposed system must be convenient, efficient, and affordable in developing countries. A Generalized Predictive Controller (GPC) is designed and validated for temperature control covering a wide range of 40 °C–75 °C. Mathematical and identified models are developed to represent the thermal behavior of the dryer. The identified linear model is used to design the GPC controller. This controller has proven great feasibility and effectiveness by maintaining the chamber temperature with a settling time that remained under 22 min, with a static error of 0.5 °C and no overshoot or dips. Moreover, the GPC algorithm is implemented with an Arduino board which represents an easy, and low-cost solution for temperature control in drying applications.
Acknowledgments
This work was supported by the research institute for solar energy and new energies (IRESEN) as part of the project SSH. The authors are grateful to the IRESEN institute for its cooperation.
Disclosure of interest statement
The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.