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Adsorption Behaviour of Lactic Acid on Granular Activated Carbon and Anionic Resins: Thermodynamics, Isotherms and Kinetic Studies

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  • Nirakar Pradhan

    (Department of Civil and Mechanical Engineering, University of Cassino and Southern Lazio, Via Di Biasio, 43, 03043 Cassino, Italy
    UNESCO-IHE Institute for Water Education, Westvest 7, 2611AX Delft, The Netherlands
    Institute of Biomolecular Chemistry, Italian National Council of Research, Via Campi Flegrei 34, 80078 Napoli, Italy)

  • Eldon R. Rene

    (UNESCO-IHE Institute for Water Education, Westvest 7, 2611AX Delft, The Netherlands)

  • Piet N. L. Lens

    (UNESCO-IHE Institute for Water Education, Westvest 7, 2611AX Delft, The Netherlands)

  • Laura Dipasquale

    (Institute of Biomolecular Chemistry, Italian National Council of Research, Via Campi Flegrei 34, 80078 Napoli, Italy)

  • Giuliana D’Ippolito

    (Institute of Biomolecular Chemistry, Italian National Council of Research, Via Campi Flegrei 34, 80078 Napoli, Italy)

  • Angelo Fontana

    (Institute of Biomolecular Chemistry, Italian National Council of Research, Via Campi Flegrei 34, 80078 Napoli, Italy)

  • Antonio Panico

    (Department of Civil Engineering, Telematic University Pegaso, Piazza Trieste E Trento, 48, 80132 Naples, Italy)

  • Giovanni Esposito

    (Department of Civil and Mechanical Engineering, University of Cassino and Southern Lazio, Via Di Biasio, 43, 03043 Cassino, Italy)

Abstract

Solid-liquid extraction (adsorption or ion exchange) is a promising approach for the in situ separation of organic acids from fermentation broths. In this study, a diluted concentration of lactic acid (<10 g/L) separation from a model fermentation broth by granular activated carbon (GAC) as well as weak (Reillex ® 425 or RLX425) and strong (Amberlite ® IRA-400 or AMB400) base anion exchange resins under various operating conditions was experimentally investigated. Thermodynamic analysis showed that the best lactic acid adsorption performances were obtained at a pH below the pK a value of lactic acid (i.e., 3.86) for GAC and RLX425 by physical adsorption mechanism and above the pK a value for the AMB400 resin by an ion exchange mechanism, respectively. The adsorption capacity for GAC (38.2 mg/g) was the highest, followed by AMB400 (31.2 mg/g) and RLX425 (17.2 mg/g). As per the thermodynamic analysis, the lactic acid adsorbed onto GAC and RLX425 through a physical adsorption mechanism, whereas the lactic acid adsorbed onto AMB400 with an ion exchange mechanism. The Langmuir adsorption isotherm model ( R 2 > 0.96) and the pseudo-second order kinetic model ( R 2 ~ 1) fitted better to the experimental data than the other models tested. Postulating the conditions for the real fermentation broth (pH: 5.0–6.5 and temperature: 30–80 °C), the resin AMB400 represents an ideal candidate for the extraction of lactic acid during fermentation.

Suggested Citation

  • Nirakar Pradhan & Eldon R. Rene & Piet N. L. Lens & Laura Dipasquale & Giuliana D’Ippolito & Angelo Fontana & Antonio Panico & Giovanni Esposito, 2017. "Adsorption Behaviour of Lactic Acid on Granular Activated Carbon and Anionic Resins: Thermodynamics, Isotherms and Kinetic Studies," Energies, MDPI, vol. 10(5), pages 1-16, May.
  • Handle: RePEc:gam:jeners:v:10:y:2017:i:5:p:665-:d:98128
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    Citations

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    Cited by:

    1. Béchir Wanassi & Ichrak Ben Hariz & Camélia Matei Ghimbeu & Cyril Vaulot & Mejdi Jeguirim, 2017. "Green Carbon Composite-Derived Polymer Resin and Waste Cotton Fibers for the Removal of Alizarin Red S Dye," Energies, MDPI, vol. 10(9), pages 1-17, September.
    2. Ricard Garrido & Luisa F. Cabeza & Víctor Falguera & Omar Pérez Navarro, 2022. "Potential Use of Cow Manure for Poly(Lactic Acid) Production," Sustainability, MDPI, vol. 14(24), pages 1-28, December.

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