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Full description of copper uptake by algal biomass combining an equilibrium NICA model with a kinetic intraparticle diffusion driving force approach

Full description of copper uptake by algal biomass combining an equilibrium NICA model with a kinetic intraparticle diffusion driving force approach
Full description of copper uptake by algal biomass combining an equilibrium NICA model with a kinetic intraparticle diffusion driving force approach
In this work kinetic and equilibrium studies related to copper binding to the protonated macroalga Sargassum muticum are reported. An intraparticle-diffusion linear driving force (LDF) model has been chosen for the quantitative description of the kinetics at several initial metal concentrations. Copper intraparticle homogeneous diffusion coefficient (D(h)) obtained is in the range 0.2-0.9 x 10-10 m2 s-1. NICA isotherm is demonstrated to constitute a substantial improvement with respect to a simpler Langmuir competitive equation. The binding parameters were chosen to provide the best simultaneous description of the equilibrium experiments. Values of log (K) over tilde (Cu) (4.3), n(Cu) (1) and p (0.31) in NICA isotherm, and log K(Cu) (3.5-5) in Langmuir competitive model, have been obtained. These parameters have been also used to predict the competition between copper and cadmium for binding sites. Two acids, HNO3 and HCl, have been tested to evaluate their effectiveness to release copper from the metal-laden biomass.
Copper, Sargassum muticum, LDF
0960-8524
2990-2997
Herrero, Roberto
083bf72e-e314-4edb-86a0-9ba61f35a816
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Garcia-Casal, Lino J.
e2c03857-bc35-4552-94ff-31fb762a23ab
Vilarino, Teresa
0e35cb40-3611-44bf-b261-b34ad6b710bb
Rey-Castro, Carlos
c9ba6881-700b-4331-8aed-5c0b1b401af8
David, Calin
65ae11f9-1835-4dee-8d8b-3675d2edf113
Rodriguez, Pilar
3c72a6f3-cec3-45dd-b560-db9d8708f91b
Herrero, Roberto
083bf72e-e314-4edb-86a0-9ba61f35a816
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Garcia-Casal, Lino J.
e2c03857-bc35-4552-94ff-31fb762a23ab
Vilarino, Teresa
0e35cb40-3611-44bf-b261-b34ad6b710bb
Rey-Castro, Carlos
c9ba6881-700b-4331-8aed-5c0b1b401af8
David, Calin
65ae11f9-1835-4dee-8d8b-3675d2edf113
Rodriguez, Pilar
3c72a6f3-cec3-45dd-b560-db9d8708f91b

Herrero, Roberto, Lodeiro, Pablo, Garcia-Casal, Lino J., Vilarino, Teresa, Rey-Castro, Carlos, David, Calin and Rodriguez, Pilar (2011) Full description of copper uptake by algal biomass combining an equilibrium NICA model with a kinetic intraparticle diffusion driving force approach. Bioresource Technology, 102 (3), 2990-2997. (doi:10.1016/j.biortech.2010.10.007).

Record type: Article

Abstract

In this work kinetic and equilibrium studies related to copper binding to the protonated macroalga Sargassum muticum are reported. An intraparticle-diffusion linear driving force (LDF) model has been chosen for the quantitative description of the kinetics at several initial metal concentrations. Copper intraparticle homogeneous diffusion coefficient (D(h)) obtained is in the range 0.2-0.9 x 10-10 m2 s-1. NICA isotherm is demonstrated to constitute a substantial improvement with respect to a simpler Langmuir competitive equation. The binding parameters were chosen to provide the best simultaneous description of the equilibrium experiments. Values of log (K) over tilde (Cu) (4.3), n(Cu) (1) and p (0.31) in NICA isotherm, and log K(Cu) (3.5-5) in Langmuir competitive model, have been obtained. These parameters have been also used to predict the competition between copper and cadmium for binding sites. Two acids, HNO3 and HCl, have been tested to evaluate their effectiveness to release copper from the metal-laden biomass.

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More information

Published date: January 2011
Keywords: Copper, Sargassum muticum, LDF
Organisations: Ocean Biochemistry & Ecosystems

Identifiers

Local EPrints ID: 354086
URI: http://eprints.soton.ac.uk/id/eprint/354086
DOI: doi:10.1016/j.biortech.2010.10.007
ISSN: 0960-8524
PURE UUID: 91792e43-ba7e-4f19-9c45-16e26c50b20e

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Date deposited: 28 Jun 2013 15:42
Last modified: 14 Mar 2024 14:13

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Contributors

Author: Roberto Herrero
Author: Pablo Lodeiro
Author: Lino J. Garcia-Casal
Author: Teresa Vilarino
Author: Carlos Rey-Castro
Author: Calin David
Author: Pilar Rodriguez

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