Maths Halstensen scite author profile

Dry matter is an important process control parameter in the bioconversion application field. Acoustic chemometrics, as a Process Analytical Technology (PAT) modality for quantitative characterisation of dry matter in complex bioslurry systems (biogas fermentation), has not been successful despite several earlier dedicated attempts. A fullscale feasibility study based on standard addition experiments involving natural plant biomass was conducted using multivariate calibration (Partial Least Squares Regression, PLS-R) of acoustic signatures against dry matter content (total solids, TS). Prediction performance of the optimised process implementation was evaluated using independent test set validation, with estimates of accuracy (slope of predicted vs. reference values) and precision (squared correlation coefficient, r 2 ) of 0.94 and 0.97 respectively, with RMSEP of 0.32 % w/w (RMSEP rel = 3.86 %) in the range of 5.8 -10.8 % w/w dry matter. Based on these excellent prediction performance measures, it is concluded that acoustic chemometrics has come of age as a full grown PAT approach for on-line monitoring of dry matter (TS) in complex bioslurry, with a promising application potential in other biomass processing industries as well.

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Acoustic chemometrics for fluid flow quantifications - II: a small constriction will go a long way

Esbensen

Hope

Lied

et al. 1999

J. Chemometrics

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Acoustic Chemometric Monitoring of Industrial Production Processes

Halstensen

Esbensen

2010

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Equilibrium measurements of the NH3–CO2–H2O system – measurement and evaluation of vapor–liquid equilibrium data at low temperatures

Jilvero

Jens

Normann

et al. 2015

Fluid Phase Equilibria

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