Abstract
This paper compares four different modeling techniques: Response Surface Method (RSM), Linear Radial Basis Functions (LRBF), Quadratic Radial Basis Functions (QRBF), and Artificial Neural Network (ANN). The models were tested by monitoring their performance in predicting the optimum operating conditions for Sesame seed oil extraction yields. Experimental data using three different solvents—hexane, chloroform, and acetone—with varying ratios of solvents to seeds, all under different temperatures, rotational speeds, and mixing times, were modeled by the three proposed techniques. Efficiency for model predictions was examined by monitoring error value performance indicators (R2, R2adj, and RMSE). Results showed that the applied modeling techniques gave good agreements with experimental data regardless of the efficiency of the solvents in oil extraction. On the other hand, the ANN model consistently performed more accurate predictions with all tested solvents under all different operating conditions. This consistency is demonstrated by the higher values of R2 and R2adj ratio equals to one and the very low value of error of RMSE (2.23 × 10−3 to 3.70 × 10−7), thus concluding that ANN possesses a universal ability to approximate nonlinear systems in comparison to other models.
Highlights
Sesame seed oil has many applications in health and food that have been known for several thousands of years
The systematic comparative study presented in this paper has provided insightful observations into the performance of various meta-modeling techniques
This study has revealed that the properly trained Artificial Neural Network (ANN) model has consistently performed more accurate prediction compared to those of Response Surface Method (RSM), Linear (LRBF), and Multi-quadric (QRBF) models in all aspects
Summary
Sesame seed oil has many applications in health and food that have been known for several thousands of years. With higher oil content in comparison with other revivals, mechanical extraction for sesame seeds has always been the easiest in comparison to other seeds. Sesame seeds have higher oil content (around 50%) than most of the known oilseeds. Sesame oil is known to be a high-priced and high-quality oil. Sesame oil is rich in monounsaturated and polyunsaturated fatty acids [3]. Oil content and fatty acid compositions vary significantly between oilseed crops and among the same crop collected from different geographical locations. Is has been reported that oil content for sesame seeds ranges between 44.6% to 53.1%
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