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Your search keyword '"Sainio, Tuomo"' showing total 221 results
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221 results on '"Sainio, Tuomo"'

1. Surrogate model for Bayesian optimal experimental design in chromatography

Author

Rojo-Garcia, Jose Rodrigo, Haario, Heikki, Helin, Tapio, and Sainio, Tuomo

Subjects
Statistics - Applications, Mathematics - Numerical Analysis, 62Kxx, 62Pxx, 62F15, 35R30
Abstract

We applied Bayesian Optimal Experimental Design (OED) in the estimation of parameters involved in the Equilibrium Dispersive Model for chromatography with two components with the Langmuir adsorption isotherm. The coefficients estimated were Henry's coefficients, the total absorption capacity and the number of theoretical plates, while the design variables were the injection time and the initial concentration. The Bayesian OED algorithm is based on nested Monte Carlo estimation, which becomes computationally challenging due to the simulation time of the PDE involved in the dispersive model. This complication was relaxed by introducing a surrogate model based on Piecewise Sparse Linear Interpolation. Using the surrogate model instead the original reduces significantly the simulation time and it approximates the solution of the PDE with high degree of accuracy. The estimation of the parameters over strategical design points provided by OED reduces the uncertainty in the estimation of parameters. Additionally, the Bayesian OED methodology indicates no improvements when increasing the number of measurements in temporal nodes above a threshold value., Comment: 23 pages and 8 figures

Published
2024

40. Recovery of ammonium from stormwater by ion exchange: Purifying seepage water in laboratory and pilot scales.

Author

Jianzhi Song, Heinonen, Jari, and Sainio, Tuomo

Subjects
WATER seepage, ION exchange (Chemistry), AMMONIUM, ION exchange resins, COMPOSITION of feeds, STORMWATER infiltration
Abstract

Ammonium removal from seepage water (representative stormwater) by ion exchange was investigated experimentally on laboratory and pilot scales. The results present the removal of ammonium from the worst-case scenario of stormwater, which is seepage water. Ammonium removal was efficiently accomplished with commercial resin CS16GC in proton and sodium forms. With the resin in H+ form, simultaneous removal of Na+, K+, Ca2+, and Mg2+ was achieved, whereas with the resin in Na+ form, other metals except Na+ were removed. Resin regeneration could be done efficiently with 2 mol/L HCl and 2 mol/L NaCl. Cyclic (7 cycles) ammonium removal runs were conducted with the CS16GC resin in Na+ form on both laboratory and pilot scale. Qualitatively, the results obtained from the cyclic runs done on laboratory and pilot scales were similar; however, some differences were observed because of slightly different feed compositions. In the pilot-scale run, 95-100% ammonium removal was obtained. The performance of the commercial resin was efficient compared with novel materials reported in the literature in an analysis method proposed by the authors. Ion exchange--based ammonium removal was shown to be an efficient method, and further investigation on the longterm stability of the process is warranted. [ABSTRACT FROM AUTHOR]

Published
2024
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