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1 Fundamental continuous digester model – Doyle et al. Very big & complex model.

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Presentation on theme: "1 Fundamental continuous digester model – Doyle et al. Very big & complex model."— Presentation transcript:

1 1 Fundamental continuous digester model – Doyle et al. Very big & complex model

2 2 Lignin »High reactivity »Low reactivity Cellulose »High »Low Xylan »High »Low Glucomannan »High »Low Alkali Sulfide Lignin »High reactivity »Low reactivity Cellulose »High »Low Xylan »High »Low Glucomannan »High »Low Alkali Sulfide Dissolved lignin Dissolved Carbohydrates Passive alkali Passive sulfide Fundamental continuous digester model – Doyle et al. Use Purdue Pulping Kinetics

3 3 Transport in and out of chip modeled with an overall mass transfer coefficient All components are assumed to diffuse in and out of chip at the same rate. Transport in and out of chip modeled with an overall mass transfer coefficient All components are assumed to diffuse in and out of chip at the same rate. Solid Entrapped Liquor Free Liquor T c, v c, p c, ρ si ρ ei T fl, v fl, p fl, ρ fl Lo reactive lignin Hi reactive lignin Cellulose Araboxylan Galactoglucoman Active EA Passive EA Active HS Passive HS Dissolved Lignin Dissolved Carb- ohydrate Reaction Site Mass Transfer ΔzΔz ε η T c, v c, p c, ρ si ρ ei T fl, v fl, p fl, ρ fl Fundamental continuous digester model – Doyle et al.

4 4 Digester is divided up into a series of CSTRs that chips and liquor flow into and out of. »60 to >100 in a digester Model assumes no radial gradients. Digester is divided up into a series of CSTRs that chips and liquor flow into and out of. »60 to >100 in a digester Model assumes no radial gradients. Fundamental continuous digester model – Doyle et al.

5 5 Use Harkonen model to calculate chip pressure and compaction as a function of kappa number. Use Harkonen model to calculate the pressure drop in the chip bed. Mass balance - w/ kinetics Heat Balance - w/ kinetics Momentum balance Use Harkonen model to calculate chip pressure and compaction as a function of kappa number. Use Harkonen model to calculate the pressure drop in the chip bed. Mass balance - w/ kinetics Heat Balance - w/ kinetics Momentum balance Dynamic model of continuous digester to predict Fundamental continuous digester model – Doyle et al.

6 6 Model is complex with many variables

7 7 Kappa, [OH-], [HS-], dissolved solids, chip density (function of extent of cooking), void fraction of bed, chip velocities, liquor velocities, temperature profiles, chips & liquor, chip porosity Model has been used to examine different control strategies and the effect of grade changes. Kappa, [OH-], [HS-], dissolved solids, chip density (function of extent of cooking), void fraction of bed, chip velocities, liquor velocities, temperature profiles, chips & liquor, chip porosity Model has been used to examine different control strategies and the effect of grade changes. Fundamental continuous digester model – Doyle et al. Model predictions

8 8

9 9 Fundamental continuous digester model – Doyle et al. Model results Comparison of predicted and measured blow line kappa number SW-HW (top) and HW-SW (bottom) transitions where solid line is nonlinear model prediction.

10 10 Fundamental continuous digester model – Doyle et al. Model has been used to examine different control strategies and the effect of grade changes. Model applications

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