posted on 2025-01-11, 02:46authored bySamuel Adeyemo, Debangsu Bhattacharyya
This work proposes two algorithms
to guarantee the exact
satisfaction
of mass conservation laws by sparse data driven models. The initial
model building is undertaken by employing the Bayesian Identification
of Dynamic Sparse Algebraic Model (BIDSAM) algorithm. Algorithm
I proposed in this work updates the model parameters through
an optimization process that augments the original model with a data
reconciliation step. Algorithm II derives a set of
equality constraints for the original model parameters that ensure
the exact satisfaction of the resulting closed form model. The proposed
algorithms are tested on two case studies for which steady state and
dynamic model building are undertaken, and the results show that both
algorithms guarantee exact satisfaction of mass balance constraints
while at the same time minimizing the deviations of model predictions
from their true values even when model training is
done with noisy data with bias. While Algorithm II generally resulted in relatively larger model size due to the basic
model structure requirements, both algorithms preserve the sparsity
and interpretability characteristics of the original BIDSAM model
while achieving satisfaction of mass conservation laws.