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Results: 1-16 |
Results: 16
Modeling and analysis of the dynamic behavior of mechanisms that result inthe development of inner radial humps in the concentration of a single adsorbate in the adsorbed phase of porous adsorbent particles observed in confocal scanning laser microscopy experiments: diffusional mass transfer and adsorption in the presence of an electrical double layer
Authors: Liapis, AI Grimes, BA Lacki, K Neretnieks, I
Citation: Ai. Liapis et al., Modeling and analysis of the dynamic behavior of mechanisms that result inthe development of inner radial humps in the concentration of a single adsorbate in the adsorbed phase of porous adsorbent particles observed in confocal scanning laser microscopy experiments: diffusional mass transfer and adsorption in the presence of an electrical double layer, J CHROMAT A, 921(2), 2001, pp. 135-145
Quantitative analysis and synthesis of the electrokinetic mass transport and adsorption mechanisms of a charged adsorbate in capillary electrochromatography systems employing charged adsorbent particles
Authors: Grimes, BA Liapis, AI
Citation: Ba. Grimes et Ai. Liapis, Quantitative analysis and synthesis of the electrokinetic mass transport and adsorption mechanisms of a charged adsorbate in capillary electrochromatography systems employing charged adsorbent particles, J CHROMAT A, 919(1), 2001, pp. 157-179
Pore network modelling: determination of the dynamic profiles of the pore diffusivity and its effect on column performance as the loading of the solute in the adsorbed phase varies with time
Authors: Meyers, JJ Crosser, OK Liapis, AI
Citation: Jj. Meyers et al., Pore network modelling: determination of the dynamic profiles of the pore diffusivity and its effect on column performance as the loading of the solute in the adsorbed phase varies with time, J CHROMAT A, 908(1-2), 2001, pp. 35-47
Determination of the pore connectivity and pore size distribution and porespatial distribution of porous chromatographic particles from nitrogen sorption measurements and pore network modelling theory
Authors: Meyers, JJ Nahar, S Ludlow, DK Liapis, AI
Citation: Jj. Meyers et al., Determination of the pore connectivity and pore size distribution and porespatial distribution of porous chromatographic particles from nitrogen sorption measurements and pore network modelling theory, J CHROMAT A, 907(1-2), 2001, pp. 57-71
Exergy analysis for the freezing stage of the freeze drying process
Authors: Bruttini, R Crosser, OK Liapis, AI
Citation: R. Bruttini et al., Exergy analysis for the freezing stage of the freeze drying process, DRY TECHNOL, 19(9), 2001, pp. 2303-2313
Pore network modelling of affinity chromatography: determination of the dynamic profiles of the pore diffusivity of beta-galactosidase and its effecton column performance as the loading of beta-galactosidase onto anti-beta-galactosidase varies with time
Authors: Meyers, JJ Crosser, OK Liapis, AI
Citation: Jj. Meyers et al., Pore network modelling of affinity chromatography: determination of the dynamic profiles of the pore diffusivity of beta-galactosidase and its effecton column performance as the loading of beta-galactosidase onto anti-beta-galactosidase varies with time, J BIOCH BIO, 49(1-3), 2001, pp. 123-139
Modeling and analysis of the electrokinetic mass transport and adsorption mechanisms of a charged adsorbate in capillary electrochromatography systems employing charged nonporous adsorbent particles
Authors: Grimes, BA Liapis, AI
Citation: Ba. Grimes et Ai. Liapis, Modeling and analysis of the electrokinetic mass transport and adsorption mechanisms of a charged adsorbate in capillary electrochromatography systems employing charged nonporous adsorbent particles, J COLL I SC, 234(1), 2001, pp. 223-243
Determination of the intraparticle electroosmotic volumetric flow-rate, velocity and Peclet number in capillary electrochromatography from pore network theory
Authors: Grimes, BA Meyers, JJ Liapis, AI
Citation: Ba. Grimes et al., Determination of the intraparticle electroosmotic volumetric flow-rate, velocity and Peclet number in capillary electrochromatography from pore network theory, J CHROMAT A, 890(1), 2000, pp. 61-72
Modeling the velocity field of the electroosmotic flow in charged capillaries and in capillary columns packed with charged particles: interstitial and intraparticle velocities in capillary electrochromatography systems
Authors: Liapis, AI Grimes, BA
Citation: Ai. Liapis et Ba. Grimes, Modeling the velocity field of the electroosmotic flow in charged capillaries and in capillary columns packed with charged particles: interstitial and intraparticle velocities in capillary electrochromatography systems, J CHROMAT A, 877(1-2), 2000, pp. 181-215
Modeling and simulation of the dynamic behavior of monoliths Effect of pore structure from pore network model analysis and comparison with columns packed with porous spherical particles (vol 865, pg 13, 1999)
Authors: Liapis, AI Meyers, JJ Crosser, OK
Citation: Ai. Liapis et al., Modeling and simulation of the dynamic behavior of monoliths Effect of pore structure from pore network model analysis and comparison with columns packed with porous spherical particles (vol 865, pg 13, 1999), J CHROMAT A, 873(2), 2000, pp. 301-301
Film mass transfer coefficient expressions for electroosmotic flows
Authors: Liapis, AI Grimes, BA
Citation: Ai. Liapis et Ba. Grimes, Film mass transfer coefficient expressions for electroosmotic flows, J COLL I SC, 229(2), 2000, pp. 540-543
Modeling and simulation of the dynamic behavior of monoliths. Effects of pore structure from pore network model analysis and comparison with columns packed with porous spherical particles
Authors: Liapis, AI Meyers, JJ Crosser, OK
Citation: Ai. Liapis et al., Modeling and simulation of the dynamic behavior of monoliths. Effects of pore structure from pore network model analysis and comparison with columns packed with porous spherical particles, J CHROMAT A, 865(1-2), 1999, pp. 13-25
Network modeling of the convective flow and diffusion of molecules adsorbing in monoliths and in porous particles packed in a chromatographic column
Authors: Meyers, JJ Liapis, AI
Citation: Jj. Meyers et Ai. Liapis, Network modeling of the convective flow and diffusion of molecules adsorbing in monoliths and in porous particles packed in a chromatographic column, J CHROMAT A, 852(1), 1999, pp. 3-23
Estimation of the effect of product shrinkage on the drying times, heat input and condenser load of the primary and secondary drying stages of the lyophilization process in vials
Authors: Sadikoglu, H Liapis, AI Crosser, OK Bruttini, R
Citation: H. Sadikoglu et al., Estimation of the effect of product shrinkage on the drying times, heat input and condenser load of the primary and secondary drying stages of the lyophilization process in vials, DRY TECHNOL, 17(10), 1999, pp. 2013-2035
Frontal chromatography of proteins: The effect on column performance of the restricted diffusion of molecules in porous chromatographic adsorbents
Authors: Liapis, AI Sadikoglu, H Crosser, OK
Citation: Ai. Liapis et al., Frontal chromatography of proteins: The effect on column performance of the restricted diffusion of molecules in porous chromatographic adsorbents, J CHROMAT A, 828(1-2), 1998, pp. 345-356
Network modeling of the intraparticle convection and diffusion of molecules in porous particles packed in a chromatographic column
Authors: Meyers, JJ Liapis, AI
Citation: Jj. Meyers et Ai. Liapis, Network modeling of the intraparticle convection and diffusion of molecules in porous particles packed in a chromatographic column, J CHROMAT A, 827(2), 1998, pp. 197-213
Risultati: 1-16 |