Your search keyword '"Nabil Kechaou"' showing total 2 results

1. Thin layer modelling of Gelidium sesquipedale solar drying process

Author

C. S. Ethmane Kane, Nabil Kechaou, M. Kouhila, A. Jamali, L. Ait Mohamed, and Mostafa Mahrouz

Subjects

Convection, Correlation coefficient, Renewable Energy, Sustainability and the Environment, Chemistry, Thin layer, Energy Engineering and Power Technology, Thermodynamics, Rate equation, Solar drying, Fuel Technology, Nuclear Energy and Engineering, Scientific method, Relative humidity, Gelidium sesquipedale

Abstract

The effect of air temperature and air flow rate on the drying kinetics of Gelidium sesquipedale was investigated in convective solar drying. Drying was conducted at 40, 50 and 60 °C. The relative humidity was varied from 50% to 57%, and the drying air flow rate was varied from 0.0277 to 0.0833 m 3 /s. The expression for the drying rate equation is determined empirically from the characteristic drying curve. Thirteen mathematical models of thin layer drying are selected in order to estimate the suitable model for describing the drying curves. The two term model gives the best prediction of the drying curves and satisfactorily describes the drying characteristics of G. sesquipedale with a correlation coefficient R of 0.9999 and chi-square ( χ 2 ) of 3.381 × 10 −6 .

Published

2008

2. Single layer solar drying behaviour of Citrus aurantium leaves under forced convection

Author

L. Ait Mohamed, Nabil Kechaou, M. Kouhila, S. Lahsasni, Mostafa Mahrouz, and A. Jamali

Subjects

Solar dryer, Convection, Materials science, Meteorology, Correlation coefficient, Renewable Energy, Sustainability and the Environment, Airflow, Energy Engineering and Power Technology, Atmospheric sciences, Forced convection, Volumetric flow rate, Fuel Technology, Nuclear Energy and Engineering, Relative humidity, Nonlinear regression

Abstract

Convective solar drying experiments in thin layers of Citrus aurantium leaves grown in Marrakech, morocco, were conducted. An indirect forced convection solar dryer consisting of a solar air collector, an auxiliary heater, a circulation fan and a drying cabinet is used for the experiments. The air temperature was varied from 50 to 60 °C; the relative humidity from 41% to 53%; and the drying air flow rate from 0.0277 to 0.0833 m3/s. Thirteen statistical models, which are semi-theoretical and/or empirical, were tested for fitting the experimental data. A nonlinear regression analysis using a statistical computer program was used to evaluate the constants of the models. The Midilli–Kucuk drying model was found to be the most suitable for describing the solar drying curves of Citrus aurantium leaves with a correlation coefficient (r) of 0.99998, chi-square (χ2) of 4.664 × 10−6 and MBE of 4.8381 × 10−4.

Published

2005