2014
DOI: 10.1016/j.powtec.2013.11.037
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Numerical modeling and uncertainty quantification of a bubbling fluidized bed with immersed horizontal tubes

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Cited by 27 publications
(24 citation statements)
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“…The relevant parameters identified in each C2U unit problem are described in their respective sections. In each unit problem, the MFIX model is analyzed using the same statistical UQ techniques as those used in the bubbling bed unit problem [34], including sensitivity analysis [35,36], Bayesian calibration, and model assessment [31,32,37]. The Bayesian model calibration of unit problem 1: 32D1 Cold Flow results in a posterior distribution to describe the remaining uncertainty in the model parameters .…”
Section: Hierarchical Calibration and Validation Proceduresmentioning
confidence: 99%
“…The relevant parameters identified in each C2U unit problem are described in their respective sections. In each unit problem, the MFIX model is analyzed using the same statistical UQ techniques as those used in the bubbling bed unit problem [34], including sensitivity analysis [35,36], Bayesian calibration, and model assessment [31,32,37]. The Bayesian model calibration of unit problem 1: 32D1 Cold Flow results in a posterior distribution to describe the remaining uncertainty in the model parameters .…”
Section: Hierarchical Calibration and Validation Proceduresmentioning
confidence: 99%
“…A volume of fluid (VOF) method, an interface-tracking technique used for locating gas-liquid interface, together with a continuum surface force (CSF) model, 18,19 has been a common approach for exploring the hydrodynamics of gas-liquid interaction, including locating the gas-liquid interface and tracking the motion of gas and liquid flow. Meanwhile, Lane et al 28 and Storlie et al 29 have designed a general calibration framework to calibrate the CFD model of a bubbling fluidized bed, which is used as an absorber in the CO 2 capture system. To quantify the predictive confidence for the N 2 O/MEA system, the established model framework must be validated with controlled experimental results with a statistical calibration framework.…”
Section: Introductionmentioning
confidence: 99%
“…[23][24][25][26] Lai et al 27 have implemented a Bayesian calibration procedure to estimate the predictive confidence of the CFD model for solid sorbent-based carbon capture. Meanwhile, Lane et al 28 and Storlie et al 29 have designed a general calibration framework to calibrate the CFD model of a bubbling fluidized bed, which is used as an absorber in the CO 2 capture system.…”
Section: Introductionmentioning
confidence: 99%
“…Here we present a general approach for calibration in situations where there are mul- This calibration approach is then applied to the bubbling fluidized bed problem that motivated its design. While some of the scientific results of this specific problem have been presented in Lane et al (2014), the focus here is on the presentation of the statistical methodology and analysis. Finally, the proposed approach is tested in a controlled simulation study and performance is compared to the Gaussian Process Models for Simulation Analysis (GPMSA) approach of (Higdon et al 2008) which has also been extended here to allow for categorical calibration parameters.…”
Section: Introductionmentioning
confidence: 99%