AIChE Symposium Series, Volume 91, Issue 309American Institute of Chemical Engineers, 1972 - Chemical engineering |
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Page 22
American Institute of Chemical Engineers. method [ 10 ] was used to solve the diffusion - reaction equations for the solid phase . A Runge - Kutta method was used to solve the continuity and energy equations for the gas phase . The ...
American Institute of Chemical Engineers. method [ 10 ] was used to solve the diffusion - reaction equations for the solid phase . A Runge - Kutta method was used to solve the continuity and energy equations for the gas phase . The ...
Page 32
... method because the former have a larger surface area and a higher loading of effective CuO on the support surface . The adsor- bent with 20 wt . % CuO loading exhibits the highest SO2 sorption capacity . Both the sulphation rate and SO2 ...
... method because the former have a larger surface area and a higher loading of effective CuO on the support surface . The adsor- bent with 20 wt . % CuO loading exhibits the highest SO2 sorption capacity . Both the sulphation rate and SO2 ...
Page 35
... method ( 111.7 KJ / mol ) . Markussen et al . [ 19 ] also found that the first order reaction model could only fit a part of the regeneration curve ( for XA < 0.7 ) . This indicates that the regeneration of the sulfated sorbent involves ...
... method ( 111.7 KJ / mol ) . Markussen et al . [ 19 ] also found that the first order reaction model could only fit a part of the regeneration curve ( for XA < 0.7 ) . This indicates that the regeneration of the sulfated sorbent involves ...
Contents
Foreword | 1 |
NOXSO SO₂NO Flue Gas Treatment Process Adsorption Chemistry and Kinetics | 18 |
Sulphation and Regeneration of SolGel Derived Regenerative Sorbents | 32 |
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1 other sections not shown
Common terms and phrases
activated carbons adsorbed adsorption adsorptive capacities alkyl alumina Aluminosiliceous amine amino-functional anisole bed volumes benzoic acid bulk density catalytic cations Chem Chemical chitosan chlorobenzene CO₂ copolymers copolymers functionalized copper oxide copper oxide sorbents CuO loading CVOC cycle dealuminated decrease dual-function efficiently remove fixed-bed flow rate flue gas desulfurization g/cm³ H₂O Haslbeck increases interactions kinetic m²/g materials MCM-41 type methane methanol micropores ml/min molecules Na₂O nitrogen NO₂ NOXSO process parameters penicillin phenol phenoxyacetate pickup polymeric polymeric resins polymers pore volume porosity precursor presorbed pressure process streams properties reactor regeneration curve resin S-VBC samples selectively and efficiently showed shown in Figure Siliceous simulation SO₂ sorption sodium sol-gel sol-gel derived solvent sorbent sorption sorption capacity storage inhibitors sulfur supported copper oxide surface area synthesized Table TCE sorption templating tertiary thermal TR/CA tyrosinase waste minimization XUS resin y-alumina supported zeolites
References to this book
Nanoporous Materials: Science and Engineering G. Q. Lu,George Xiu Song Zhao No preview available - 2004 |