Biomass higher heating value prediction from ultimate analysis using multiple regression and genetic programming

Biomass higher heating value prediction from ultimate analysis using multiple regression and genetic programming

The higher heating value (HHV) is a significant parameter for the determination of fuel quality. However, its measurement is time-consuming and requires sophisticated equipment. For this reason, several researches have been interested to develop mathematical models for the prediction of HHV from fun...

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Veröffentlicht in:Biomass conversion and biorefinery 2019-09, Vol.9 (3), p.499-509
Hauptverfasser: Boumanchar, Imane, Charafeddine, Kenza, Chhiti, Younes, M’hamdi Alaoui, Fatima Ezzahrae, Sahibed-dine, Abdelaziz, Bentiss, Fouad, Jama, Charafeddine, Bensitel, Mohammed
Format: Artikel
Sprache:eng
Schlagworte:
Biomass
Biotechnology
Calorific value
Chemical Sciences
Correlation analysis
Correlation coefficients
Energy
Genetic algorithms
Material chemistry
Mathematical models
Model accuracy
Original Article
Polymers
Regression analysis
Renewable and Green Energy
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Zusammenfassung:The higher heating value (HHV) is a significant parameter for the determination of fuel quality. However, its measurement is time-consuming and requires sophisticated equipment. For this reason, several researches have been interested to develop mathematical models for the prediction of HHV from fundamental composition. The purpose of this study is to develop new correlations to determine the biomass HHV from ultimate analysis. As a result, two models were elaborated. The first was developed using multiple variable regression analysis while the second has adopted genetic programming formalism. Data of 171 from various types of biomass samples were randomly used for the development (75%) and the validation (25%) of new equations. The accuracy of the established models was compared to previous literature works in terms of correlation coefficient (CC), average absolute error (AAE), and average bias error (ABE). The proposed models were more performing with the highest CC and the smallest errors.
ISSN:2190-6815
2190-6823
DOI:10.1007/s13399-019-00386-5