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Type: Artigo
Title: Turbulence-assisted high throughput liquid-liquid extraction in microfluidics and Ni(OH) 2 nanoparticles for electrochemical determination of monoethylene glycol traces in natural gas condensate
Author: Giordano, Gabriela F.
Camargo, Camila L. de
Vieira, Luis C. S.
d’Ávila, Marcos A.
Couto, Bruno C.
Carvalho, Rogério M. de
Gobbi, Angelo L.
Lima, Renato S.
Abstract: While monoethylene glycol (MEG) is an efficient alternative to prevent the generation of hydrates into the natural gas (NG) processing pipes, this specie also generates undesirable effects such as pipe corrosion, catalyst poisoning, quality loss of the fuel, and environment contamination. Thus, MEG is removed from the system in final stages of the NG processing and is regenerated for reuse, making mandatory its monitoring in both regenerated samples and fuels such as the NG condensate (NGC). Herein, we address a simple and fast method to determine MEG traces in NGC which was based on two stages: microfluidic liquid–liquid extraction (LLE) and electrochemical detection. High throughput (residence time of 0.05 s) and efficient LLEs were obtained in a single run by pumping the immiscible phases at harsh flow rates (up to 40 mL min–1) into a bulky chip (without interface) composed of bisphenol A (BSA)-based epoxy resin, which was prototyped using a clean-room-free and bondless approach. This unprecedented substrate in microfluidics showed resistance to elastic deformation and swelling in different organic media. The extraction was essential to allow the electrochemical determination of MEG, in which the aqueous acceptor phase from LLE was used as an electrolytic sample. Nickel disks modified with Ni(OH)2 nanoparticles provided a sensitive quantification of MEG, because of the high electrode surface area and catalytic activity of Ni(OH)2 for the irreversible oxidation of MEG. This electrode further requires a simple surface modification. We believe the method reported in this manuscript is a powerful alternative to monitor MEG in NGC samples by the industry
Subject: Nanopartículas
Extração líquido-líquido
Country: Estados Unidos
Editor: American Chemical Society
Rights: Fechado
Identifier DOI: 10.1021/acs.energyfuels.8b00725
Date Issue: 2018
Appears in Collections:IQ - Artigos e Outros Documentos
FEM - Artigos e Outros Documentos

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