Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories

C. Puentes-Morales; L. D. Pedroza-Camacho; J. F. Mateus-Maldonado; J. C. Lores-Acosta; M. C. Pedroza-Cubides; J. Ramirez-Rodríguez; J. C. Salcedo-Reyes; L. A. Díaz-Ariza; A. M. Pedroza-Rodríguez

doi:10.24275/rmiq/IA1997

Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories

Título traducido de la contribución: Tratamiento biológico y fotocatalítico a escala de planta piloto para aguas residuals coloreadas sintéticas producidas en laboratorios de docencia universitaria

C. Puentes-Morales, L. D. Pedroza-Camacho, J. F. Mateus-Maldonado, J. C. Lores-Acosta, M. C. Pedroza-Cubides, J. Ramirez-Rodríguez, J. C. Salcedo-Reyes, L. A. Díaz-Ariza, A. M. Pedroza-Rodríguez

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8 Citas (Scopus)

Resumen

Dyes and chemical additives, present in wastewater produced in Microbiology teaching laboratories generate high contamination. They are difficult to degrade and according to the Colombian regulation should be treated before final disposal. In this work, a pilot plant was used to treat synthetic wastewater (SWW) containing a mix of dyes (10 mg/L Crystal Violet, 10 mg/L Congo Red, 10 mg/L Malachite Green and 10 mg/L Fuchsin Gram). To remove this type of contaminants initially, the capacity of a fungal/bacterial sludge (FBS) on a 1 L scale was determined. Subsequently, the operating conditions that favor tertiary treatment were selected by using TiO2/UV photocatalysis at 0.25 L scale and finally the complete treatment plant was integrated and evaluated (Pre-treatment, secondary treatment and tertiary treatment). The SWW that entered the plant had the following characteristics: Chemical Oxygen Demand (COD): 4033 mg/L, Biochemical Oxygen Demand (BOD5): 2750 mg/L, Color Units (CU): 2010, BOD5/COD ratio: 0.68, 19_3 ºC and a pH of 7.0. After 37 hours of plant operation, overall removal was 98 _ 3%, 99 _ 6% and 99 _ 8%, for COD, BOD5 and CU. Demonstrating that integration of unitary operations in a sequential and orderly manner, are a novel alternative for treatment of this type of wastewater.

Título traducido de la contribución	Tratamiento biológico y fotocatalítico a escala de planta piloto para aguas residuals coloreadas sintéticas producidas en laboratorios de docencia universitaria
Idioma original	Inglés
Páginas (desde-hasta)	521-539
Número de páginas	19
Publicación	Revista Mexicana de Ingeniera Quimica
Volumen	20
N.º	2
DOI	https://doi.org/10.24275/rmiq/IA1997
Estado	Publicada - 01 may. 2021

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Puentes-Morales, C., Pedroza-Camacho, L. D., Mateus-Maldonado, J. F., Lores-Acosta, J. C., Pedroza-Cubides, M. C., Ramirez-Rodríguez, J., Salcedo-Reyes, J. C., Díaz-Ariza, L. A., & Pedroza-Rodríguez, A. M. (2021). Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories. Revista Mexicana de Ingeniera Quimica, 20(2), 521-539. https://doi.org/10.24275/rmiq/IA1997

@article{2a9624ad132c4823b37095fe50c93661,

title = "Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories",

abstract = "Dyes and chemical additives, present in wastewater produced in Microbiology teaching laboratories generate high contamination. They are difficult to degrade and according to the Colombian regulation should be treated before final disposal. In this work, a pilot plant was used to treat synthetic wastewater (SWW) containing a mix of dyes (10 mg/L Crystal Violet, 10 mg/L Congo Red, 10 mg/L Malachite Green and 10 mg/L Fuchsin Gram). To remove this type of contaminants initially, the capacity of a fungal/bacterial sludge (FBS) on a 1 L scale was determined. Subsequently, the operating conditions that favor tertiary treatment were selected by using TiO2/UV photocatalysis at 0.25 L scale and finally the complete treatment plant was integrated and evaluated (Pre-treatment, secondary treatment and tertiary treatment). The SWW that entered the plant had the following characteristics: Chemical Oxygen Demand (COD): 4033 mg/L, Biochemical Oxygen Demand (BOD5): 2750 mg/L, Color Units (CU): 2010, BOD5/COD ratio: 0.68, 19_3 ºC and a pH of 7.0. After 37 hours of plant operation, overall removal was 98 _ 3%, 99 _ 6% and 99 _ 8%, for COD, BOD5 and CU. Demonstrating that integration of unitary operations in a sequential and orderly manner, are a novel alternative for treatment of this type of wastewater.",

keywords = "Pilot plant, Pre-treatment, Secondary biological treatment, Synthetic wastewater, Tertiary photocatalytic treatment",

author = "C. Puentes-Morales and Pedroza-Camacho, {L. D.} and Mateus-Maldonado, {J. F.} and Lores-Acosta, {J. C.} and Pedroza-Cubides, {M. C.} and J. Ramirez-Rodr{\'i}guez and Salcedo-Reyes, {J. C.} and D{\'i}az-Ariza, {L. A.} and Pedroza-Rodr{\'i}guez, {A. M.}",

year = "2021",

month = may,

day = "1",

doi = "10.24275/rmiq/IA1997",

language = "English",

volume = "20",

pages = "521--539",

journal = "Revista Mexicana de Ingeniera Quimica",

issn = "1665-2738",

publisher = "Universidad Autonoma Metropolitana",

number = "2",

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Puentes-Morales, C, Pedroza-Camacho, LD, Mateus-Maldonado, JF, Lores-Acosta, JC, Pedroza-Cubides, MC, Ramirez-Rodríguez, J, Salcedo-Reyes, JC , Díaz-Ariza, LA & Pedroza-Rodríguez, AM 2021, 'Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories', Revista Mexicana de Ingeniera Quimica, vol. 20, n.º 2, pp. 521-539. https://doi.org/10.24275/rmiq/IA1997

Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories. / Puentes-Morales, C.; Pedroza-Camacho, L. D.; Mateus-Maldonado, J. F. et al.
En: Revista Mexicana de Ingeniera Quimica, Vol. 20, N.º 2, 01.05.2021, p. 521-539.

Producción: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories

AU - Puentes-Morales, C.

AU - Pedroza-Camacho, L. D.

AU - Mateus-Maldonado, J. F.

AU - Lores-Acosta, J. C.

AU - Pedroza-Cubides, M. C.

AU - Ramirez-Rodríguez, J.

AU - Salcedo-Reyes, J. C.

AU - Díaz-Ariza, L. A.

AU - Pedroza-Rodríguez, A. M.

PY - 2021/5/1

Y1 - 2021/5/1

N2 - Dyes and chemical additives, present in wastewater produced in Microbiology teaching laboratories generate high contamination. They are difficult to degrade and according to the Colombian regulation should be treated before final disposal. In this work, a pilot plant was used to treat synthetic wastewater (SWW) containing a mix of dyes (10 mg/L Crystal Violet, 10 mg/L Congo Red, 10 mg/L Malachite Green and 10 mg/L Fuchsin Gram). To remove this type of contaminants initially, the capacity of a fungal/bacterial sludge (FBS) on a 1 L scale was determined. Subsequently, the operating conditions that favor tertiary treatment were selected by using TiO2/UV photocatalysis at 0.25 L scale and finally the complete treatment plant was integrated and evaluated (Pre-treatment, secondary treatment and tertiary treatment). The SWW that entered the plant had the following characteristics: Chemical Oxygen Demand (COD): 4033 mg/L, Biochemical Oxygen Demand (BOD5): 2750 mg/L, Color Units (CU): 2010, BOD5/COD ratio: 0.68, 19_3 ºC and a pH of 7.0. After 37 hours of plant operation, overall removal was 98 _ 3%, 99 _ 6% and 99 _ 8%, for COD, BOD5 and CU. Demonstrating that integration of unitary operations in a sequential and orderly manner, are a novel alternative for treatment of this type of wastewater.

AB - Dyes and chemical additives, present in wastewater produced in Microbiology teaching laboratories generate high contamination. They are difficult to degrade and according to the Colombian regulation should be treated before final disposal. In this work, a pilot plant was used to treat synthetic wastewater (SWW) containing a mix of dyes (10 mg/L Crystal Violet, 10 mg/L Congo Red, 10 mg/L Malachite Green and 10 mg/L Fuchsin Gram). To remove this type of contaminants initially, the capacity of a fungal/bacterial sludge (FBS) on a 1 L scale was determined. Subsequently, the operating conditions that favor tertiary treatment were selected by using TiO2/UV photocatalysis at 0.25 L scale and finally the complete treatment plant was integrated and evaluated (Pre-treatment, secondary treatment and tertiary treatment). The SWW that entered the plant had the following characteristics: Chemical Oxygen Demand (COD): 4033 mg/L, Biochemical Oxygen Demand (BOD5): 2750 mg/L, Color Units (CU): 2010, BOD5/COD ratio: 0.68, 19_3 ºC and a pH of 7.0. After 37 hours of plant operation, overall removal was 98 _ 3%, 99 _ 6% and 99 _ 8%, for COD, BOD5 and CU. Demonstrating that integration of unitary operations in a sequential and orderly manner, are a novel alternative for treatment of this type of wastewater.

KW - Pilot plant

KW - Pre-treatment

KW - Secondary biological treatment

KW - Synthetic wastewater

KW - Tertiary photocatalytic treatment

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U2 - 10.24275/rmiq/IA1997

DO - 10.24275/rmiq/IA1997

M3 - Article

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SN - 1665-2738

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JO - Revista Mexicana de Ingeniera Quimica

JF - Revista Mexicana de Ingeniera Quimica

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ER -

Biological and photocatalytic treatment at pilot plant scale of synthetic coloured wastewater produced in university teaching laboratories

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