1 |
Multi-resistance kinetic models for biosorption of Cd by raw and immobilized citrus peels in batch and packed-bed columns Chatterjee A, Schiewer S Chemical Engineering Journal, 244, 105, 2014 |
2 |
Optimization and kinetic modeling of cadmium desorption from citrus peels: A process for biosorbent regeneration Njikam E, Schiewer S Journal of Hazardous Materials, 213, 242, 2012 |
3 |
The role of pectin in Cd binding by orange peel biosorbents: A comparison of peels, depectinated peels and pectic acid Schiewer S, Iqbal M Journal of Hazardous Materials, 177(1-3), 899, 2010 |
4 |
Biosorption of Pb2+ by original and protonated citrus peels: Equilibrium, kinetics, and mechanism Schiewer S, Balaria A Chemical Engineering Journal, 146(2), 211, 2009 |
5 |
Mechanistic elucidation and evaluation of biosorption of metal ions by grapefruit peel using FTIR spectroscopy, kinetics and isotherms modeling, cations displacement and EDX analysis Iqbal M, Schiewer S, Cameron R Journal of Chemical Technology and Biotechnology, 84(10), 1516, 2009 |
6 |
Pectin-rich fruit wastes as biosorbents for heavy metal removal: Equilibrium and kinetics Schiewer S, Patil SB Bioresource Technology, 99(6), 1896, 2008 |
7 |
Long-term flux improvement by air sparging and backflushing for a membrane bioreactor, and modeling permeability decline Psoch C, Schiewer S Desalination, 230(1-3), 193, 2008 |
8 |
Modeling the effect of pH on biosorption of heavy metals by citrus peels Schiewer S, Patil SB Journal of Hazardous Materials, 157(1), 8, 2008 |
9 |
Assessment of biosorption mechanism for Pb binding by citrus pectin Balaria A, Schiewer S Separation and Purification Technology, 63(3), 577, 2008 |
10 |
Dimensionless numbers for the analysis of air sparging aimed to reduce fouling in tubular membranes of a membrane bioreactor Psoch C, Schiewer S Desalination, 197(1-3), 9, 2006 |