Estimation Of Parameters And Selection Of Models Applied To Population Balance Dynamics Via Approximate Bayesian Computational

• Published in: Journal of Heat and Mass Transfer Research Vol. 9; no. 1; pp. 53 - 64
• Main Authors: Carlos Moura, Bruno Viegas, Maria Tavares, Emanuel Macedo, Diego Estumano
• Format: Journal Article
• Language: English
• Published: Semnan University 01.05.2022
• Subjects: approximate bayesian computational; bayesian statistics; particulate systems; population balance
• ISSN: 2345-508X; 2383-3068
• DOI: 10.22075/jhmtr.2022.25186.1361

Population balance models mathematically describe the particle size distribution based on modeling physical phenomena that influence the distribution, such as aggregation, growth, and breakage. Due to the wide range of mechanisms present, several models are presented in the literature since several hypotheses are considered. In the current work, the Approximate Bayesian Computational statistical technique was used to select four different models of population balance and estimate their parameters. Three strategies were applied to the drawing of parameters, evaluating the correlation between the parameters of the models. An adaptive tolerance in each population and a stopping criterion, based on Morozov's uncertainty principle, were used for the algorithm. The technique obtained reasonable estimates for the phenomenological rates of the models. The algorithm correctly selected the model used for generating measurements, and the three draw strategies demonstrated good applicability. The results obtained showed that the algorithm presented accuracy and precision in estimating the parameters and properly selected the models analyzed.