Purification and concentration of formic acid from formic acid/gluconic acid mixtures by two successive steps of nanofiltration and reactive liquid-liquid extraction

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Resumen

A downstream process for the purification and concentration of formic acid (FA) from FA/gluconic acid (GA) mixtures, obtainable by a coupled biocatalytic reaction of CO2 reduction and glucose oxidation, has been developed. The process involved two technologies: i) a first nanofiltration (NF) step to separate FA and GA, and ii) a second reactive liquid-liquid extraction (RLLE) step to concentrate FA. The NF process, using a Synder NFX membrane, consisted of three NF steps separated into two divergent lines, named permeate and retentate pathways. The first NF was common for both pathways, resulting in a permeate strongly enriched in FA and depleted in GA, and a retentate with opposite characteristics. In the permeate pathway, this first permeate was subjected to a second NF to obtain a 99.6% pure FA permeate. In the retentate pathway, an additional NF step on the first retentate resulted in a concentrated 99.4% pure GA retentate. The final diluted FA permeate was concentrated by RLLE using tri-N-octylamine as extractant in n-octanol, and a final back-extraction with NaOH. The optimized RLLE process involved a 100-fold volume decrease and resulted in a final FA solution (as sodium formate) of 174.5 g/L, 78 times more concentrated than the feed.
Idioma originalInglés
Número de artículo120492
Páginas (desde-hasta)120492
Número de páginas1
PublicaciónSeparation and Purification Technology
Volumen286
DOI
EstadoPublicada - 1 abr 2022

Palabras clave

  • Formic acid
  • Gluconic acid
  • Downstream
  • Nanofiltration
  • Reactive liquid-liquid extraction

Project and Funding Information

  • Project ID
  • info:eu-repo/grantAgreement/EC/H2020/761042/EU/BIOtechnological processes based on microbial platforms for the CONversion of CO2 from ironsteel industry into commodities for chemicals and plastics/BIOCONCO2
  • Funding Info
  • This work has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No. 761042 (BIOCON-CO2).

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