Title :
Fractional order model of a greenhouse
Author :
Mhenni, Zied ; Abbes, Mehdi ; Mami, Abdelkader
Author_Institution :
Lab. of Analyze & Command of Syst., Tunis, Tunisia
Abstract :
A fractional order model that describes thermal and moisture behaviors in the greenhouse was done. In modeling the greenhouse many authors use a simple model of soil that neglect the heat / mass coupling, furthermore they use the discretization techniques for solving the heat conduction equation leading to a very high order model, this causes problems when applying a control and requires a high time in the simulation. Several studies [3], [6] have proved that the fractional modeling offer better results and with less parameters when modeling the thermal system. The new contribution of this article is to put a greenhouse model of fractional order which takes account the heat / mass coupling in modeling the soil with the assumption that diffusion coefficients are constant. The verification of the new fractional model is done by a base of experimental data that presented in [2].
Keywords :
greenhouses; heat conduction; mass transfer; partial differential equations; diffusion coefficients; discretization techniques; fractional order model; greenhouse model; heat conduction equation; heat coupling; heat transfer; mass coupling; mass transfer; moisture behaviors; partial differential equation; soil modeling; thermal behaviors; thermal system; Decision support systems; Digital TV; Heat transfer; Indexes; Renewable energy sources; Soil; Fractional order systems; greenhouse; heat transfer; mass transfer; partial differential equation; soil modeling;
Conference_Titel :
Renewable Energy Congress (IREC), 2015 6th International
Conference_Location :
Sousse
DOI :
10.1109/IREC.2015.7110857
