Nanofiltración/Ósmosis inversa en la separación de fármacos de efluentes

L. Vera; A. Astudillo; C. Cruzat; E. González; A. Solorzano; M. E. Vanegas

Nanofiltración/Ósmosis inversa en la separación de fármacos de efluentes

L. Vera, A. Astudillo, C. Cruzat, E. González, A. Solorzano, M. E. Vanegas

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Resumen

Membrane separation processes can be an effective barrier against pharmaceuticals and other organic compounds present in water sources. This investigation presents the results of the separation of ciprofloxacin (CIPRO) and sulfamethoxazole (SULFA) in aqueous solution with nanofiltration (NF) and reverse osmosis membranes (OI) at a concentration in the feed of 5 mg/L and the influence of pH on separation mechanisms. With RO membranes, rejection was 100% for CIPRO and greater than 98% for SULFA at the studied pH. For the NF, the pH had influences on the separation of the SULFA, obtaining in the rejection 73.7% at pH 5 and at pH 7 and 9 greater than 94%. In the case of CIPRO, rejection percentages greater than 91% were obtained. The rejection obtained with the solution of the mixture of the two drugs shows no change since the percentages of rejections are very close to the results obtained in the study of the drugs separately. The transmembrane pressure did not influence the rejection of the drugs.

Título traducido de la contribución	Nanofíltration/Reverse osmosis in the separation of drugs from effluents
Idioma original	Español
Páginas (desde-hasta)	48-53
Número de páginas	6
Publicación	Afinidad
Volumen	78
N.º	592
Estado	Publicada - ene. 2021

Palabras clave

Ciprofloxacin
Nanofiltration
Reverse osmosis
Sulfamethoxazole

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@article{858d3441970947279cf3eb772bbee52e,

title = "Nanofiltraci{\'o}n/{\'O}smosis inversa en la separaci{\'o}n de f{\'a}rmacos de efluentes",

abstract = "Membrane separation processes can be an effective barrier against pharmaceuticals and other organic compounds present in water sources. This investigation presents the results of the separation of ciprofloxacin (CIPRO) and sulfamethoxazole (SULFA) in aqueous solution with nanofiltration (NF) and reverse osmosis membranes (OI) at a concentration in the feed of 5 mg/L and the influence of pH on separation mechanisms. With RO membranes, rejection was 100\% for CIPRO and greater than 98\% for SULFA at the studied pH. For the NF, the pH had influences on the separation of the SULFA, obtaining in the rejection 73.7\% at pH 5 and at pH 7 and 9 greater than 94\%. In the case of CIPRO, rejection percentages greater than 91\% were obtained. The rejection obtained with the solution of the mixture of the two drugs shows no change since the percentages of rejections are very close to the results obtained in the study of the drugs separately. The transmembrane pressure did not influence the rejection of the drugs.",

keywords = "Ciprofloxacin, Nanofiltration, Reverse osmosis, Sulfamethoxazole",

author = "L. Vera and A. Astudillo and C. Cruzat and E. Gonz{\'a}lez and A. Solorzano and Vanegas, \{M. E.\}",

year = "2021",

month = jan,

language = "Espa{\~n}ol",

volume = "78",

pages = "48--53",

journal = "Afinidad",

issn = "0001-9704",

number = "592",

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TY - JOUR

T1 - Nanofiltración/Ósmosis inversa en la separación de fármacos de efluentes

AU - Vera, L.

AU - Astudillo, A.

AU - Cruzat, C.

AU - González, E.

AU - Solorzano, A.

AU - Vanegas, M. E.

PY - 2021/1

Y1 - 2021/1

N2 - Membrane separation processes can be an effective barrier against pharmaceuticals and other organic compounds present in water sources. This investigation presents the results of the separation of ciprofloxacin (CIPRO) and sulfamethoxazole (SULFA) in aqueous solution with nanofiltration (NF) and reverse osmosis membranes (OI) at a concentration in the feed of 5 mg/L and the influence of pH on separation mechanisms. With RO membranes, rejection was 100% for CIPRO and greater than 98% for SULFA at the studied pH. For the NF, the pH had influences on the separation of the SULFA, obtaining in the rejection 73.7% at pH 5 and at pH 7 and 9 greater than 94%. In the case of CIPRO, rejection percentages greater than 91% were obtained. The rejection obtained with the solution of the mixture of the two drugs shows no change since the percentages of rejections are very close to the results obtained in the study of the drugs separately. The transmembrane pressure did not influence the rejection of the drugs.

AB - Membrane separation processes can be an effective barrier against pharmaceuticals and other organic compounds present in water sources. This investigation presents the results of the separation of ciprofloxacin (CIPRO) and sulfamethoxazole (SULFA) in aqueous solution with nanofiltration (NF) and reverse osmosis membranes (OI) at a concentration in the feed of 5 mg/L and the influence of pH on separation mechanisms. With RO membranes, rejection was 100% for CIPRO and greater than 98% for SULFA at the studied pH. For the NF, the pH had influences on the separation of the SULFA, obtaining in the rejection 73.7% at pH 5 and at pH 7 and 9 greater than 94%. In the case of CIPRO, rejection percentages greater than 91% were obtained. The rejection obtained with the solution of the mixture of the two drugs shows no change since the percentages of rejections are very close to the results obtained in the study of the drugs separately. The transmembrane pressure did not influence the rejection of the drugs.

KW - Ciprofloxacin

KW - Nanofiltration

KW - Reverse osmosis

KW - Sulfamethoxazole

UR - https://www.scopus.com/pages/publications/85104657340

M3 - Artículo

AN - SCOPUS:85104657340

SN - 0001-9704

VL - 78

SP - 48

EP - 53

JO - Afinidad

JF - Afinidad

IS - 592

ER -

Nanofiltración/Ósmosis inversa en la separación de fármacos de efluentes

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