Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology

Clio Peirano; Lorna Guerrero; Andrea Barahona; Silvio Montalvo; Cesar Huiliñir; Cristopher Da Silva; Rafael Borja

doi:10.1002/jctb.6244

Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology

Clio Peirano, Lorna Guerrero^*, Andrea Barahona, Silvio Montalvo, Cesar Huiliñir, Cristopher Da Silva, Rafael Borja

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Resumen

BACKGROUND: Some liquid industrial wastes are rich in sulfur (S), nitrogen (N) and organic matter, causing eutrophication of lakes and rivers. These wastes also are highly toxic to aquatic organisms and pose serious health problems. Biological N removal is performed by denitrification. Heterotrophic denitrifiers oxidize organic matter to CO₂ gas and reduce nitrate (NO₃ ⁻) to N₂ gas, whereas autotrophic denitrifiers oxidize reduced S compounds by reducing nitrate. Thus, a simultaneous denitrification process will allow for the removal of all these elements. RESULTS: A response surface methodology (RSM) was used to analyze the effects of the ratios heterotrophic:autotrophic bacteria (H:A, 0.2–1.9), the molar Ac⁻(Acetate):NO₃ ⁻ (0.2–1.05) and thiosulfate (S₂O₃ ²⁻):NO₃ ⁻ (0.15–1.1) on the denitrification process. The highest concentrations of sulfate were obtained with H:A = 0.2; Ac⁻: NO₃ ⁻ = 1.05 and S₂O₃ ²⁻:NO₃ ⁻ = 0.91. CONCLUSION: High NO₃ ⁻ (average 95.0 ± 3.3%) removals were obtained in all experiments, the optimal values predicted by the RSM were obtained at H:A = 0.54, Ac⁻:NO₃ ⁻ = 1.05 and S₂O₃ ²⁻:NO₃ ⁻ = 0.41. When analyzing the removal of Ac⁻, the recommended optimal operating values were: Ac⁻:NO₃ ⁻ = 1.05; H:A = 0.37 and S₂O₃ ²⁻:NO₃ ⁻ = 0.8–0.9.

Idioma original	Inglés
Páginas (desde-hasta)	631-638
Número de páginas	8
Publicación	Journal of Chemical Technology and Biotechnology
Volumen	95
N.º	3
DOI	https://doi.org/10.1002/jctb.6244
Estado	Publicada - 1 mar. 2020
Publicado de forma externa	Sí

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© 2019 Society of Chemical Industry

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Peirano, C., Guerrero, L., Barahona, A., Montalvo, S., Huiliñir, C., Da Silva, C., & Borja, R. (2020). Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology. Journal of Chemical Technology and Biotechnology, 95(3), 631-638. https://doi.org/10.1002/jctb.6244

@article{ce95928473ee4b9d863efe5b19db54a1,

title = "Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology",

abstract = "BACKGROUND: Some liquid industrial wastes are rich in sulfur (S), nitrogen (N) and organic matter, causing eutrophication of lakes and rivers. These wastes also are highly toxic to aquatic organisms and pose serious health problems. Biological N removal is performed by denitrification. Heterotrophic denitrifiers oxidize organic matter to CO2 gas and reduce nitrate (NO3 −) to N2 gas, whereas autotrophic denitrifiers oxidize reduced S compounds by reducing nitrate. Thus, a simultaneous denitrification process will allow for the removal of all these elements. RESULTS: A response surface methodology (RSM) was used to analyze the effects of the ratios heterotrophic:autotrophic bacteria (H:A, 0.2–1.9), the molar Ac−(Acetate):NO3 − (0.2–1.05) and thiosulfate (S2O3 2−):NO3 − (0.15–1.1) on the denitrification process. The highest concentrations of sulfate were obtained with H:A = 0.2; Ac−: NO3 − = 1.05 and S2O3 2−:NO3 − = 0.91. CONCLUSION: High NO3 − (average 95.0 ± 3.3%) removals were obtained in all experiments, the optimal values predicted by the RSM were obtained at H:A = 0.54, Ac−:NO3 − = 1.05 and S2O3 2−:NO3 − = 0.41. When analyzing the removal of Ac−, the recommended optimal operating values were: Ac−:NO3 − = 1.05; H:A = 0.37 and S2O3 2−:NO3 − = 0.8–0.9.",

keywords = "autotrophic denitrification, heterotrophic denitrification, response surface methodology (RSM), simultaneous sulfur and carbon removal",

author = "Clio Peirano and Lorna Guerrero and Andrea Barahona and Silvio Montalvo and Cesar Huili{\~n}ir and {Da Silva}, Cristopher and Rafael Borja",

note = "Publisher Copyright: {\textcopyright} 2019 Society of Chemical Industry",

year = "2020",

month = mar,

day = "1",

doi = "10.1002/jctb.6244",

language = "English",

volume = "95",

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Peirano, C, Guerrero, L, Barahona, A, Montalvo, S, Huiliñir, C, Da Silva, C & Borja, R 2020, 'Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology', Journal of Chemical Technology and Biotechnology, vol. 95, n.º 3, pp. 631-638. https://doi.org/10.1002/jctb.6244

Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology. / Peirano, Clio; Guerrero, Lorna; Barahona, Andrea et al.
En: Journal of Chemical Technology and Biotechnology, Vol. 95, N.º 3, 01.03.2020, p. 631-638.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon

T2 - optimization through response surface methodology

AU - Peirano, Clio

AU - Guerrero, Lorna

AU - Barahona, Andrea

AU - Montalvo, Silvio

AU - Huiliñir, Cesar

AU - Da Silva, Cristopher

AU - Borja, Rafael

PY - 2020/3/1

Y1 - 2020/3/1

N2 - BACKGROUND: Some liquid industrial wastes are rich in sulfur (S), nitrogen (N) and organic matter, causing eutrophication of lakes and rivers. These wastes also are highly toxic to aquatic organisms and pose serious health problems. Biological N removal is performed by denitrification. Heterotrophic denitrifiers oxidize organic matter to CO2 gas and reduce nitrate (NO3 −) to N2 gas, whereas autotrophic denitrifiers oxidize reduced S compounds by reducing nitrate. Thus, a simultaneous denitrification process will allow for the removal of all these elements. RESULTS: A response surface methodology (RSM) was used to analyze the effects of the ratios heterotrophic:autotrophic bacteria (H:A, 0.2–1.9), the molar Ac−(Acetate):NO3 − (0.2–1.05) and thiosulfate (S2O3 2−):NO3 − (0.15–1.1) on the denitrification process. The highest concentrations of sulfate were obtained with H:A = 0.2; Ac−: NO3 − = 1.05 and S2O3 2−:NO3 − = 0.91. CONCLUSION: High NO3 − (average 95.0 ± 3.3%) removals were obtained in all experiments, the optimal values predicted by the RSM were obtained at H:A = 0.54, Ac−:NO3 − = 1.05 and S2O3 2−:NO3 − = 0.41. When analyzing the removal of Ac−, the recommended optimal operating values were: Ac−:NO3 − = 1.05; H:A = 0.37 and S2O3 2−:NO3 − = 0.8–0.9.

AB - BACKGROUND: Some liquid industrial wastes are rich in sulfur (S), nitrogen (N) and organic matter, causing eutrophication of lakes and rivers. These wastes also are highly toxic to aquatic organisms and pose serious health problems. Biological N removal is performed by denitrification. Heterotrophic denitrifiers oxidize organic matter to CO2 gas and reduce nitrate (NO3 −) to N2 gas, whereas autotrophic denitrifiers oxidize reduced S compounds by reducing nitrate. Thus, a simultaneous denitrification process will allow for the removal of all these elements. RESULTS: A response surface methodology (RSM) was used to analyze the effects of the ratios heterotrophic:autotrophic bacteria (H:A, 0.2–1.9), the molar Ac−(Acetate):NO3 − (0.2–1.05) and thiosulfate (S2O3 2−):NO3 − (0.15–1.1) on the denitrification process. The highest concentrations of sulfate were obtained with H:A = 0.2; Ac−: NO3 − = 1.05 and S2O3 2−:NO3 − = 0.91. CONCLUSION: High NO3 − (average 95.0 ± 3.3%) removals were obtained in all experiments, the optimal values predicted by the RSM were obtained at H:A = 0.54, Ac−:NO3 − = 1.05 and S2O3 2−:NO3 − = 0.41. When analyzing the removal of Ac−, the recommended optimal operating values were: Ac−:NO3 − = 1.05; H:A = 0.37 and S2O3 2−:NO3 − = 0.8–0.9.

KW - autotrophic denitrification

KW - heterotrophic denitrification

KW - response surface methodology (RSM)

KW - simultaneous sulfur and carbon removal

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U2 - 10.1002/jctb.6244

DO - 10.1002/jctb.6244

M3 - Article

AN - SCOPUS:85075710043

SN - 0268-2575

VL - 95

SP - 631

EP - 638

JO - Journal of Chemical Technology and Biotechnology

JF - Journal of Chemical Technology and Biotechnology

IS - 3

ER -

Assessment of simultaneous autotrophic–heterotrophic denitrification with high removal of nitrogen, sulfur and carbon: optimization through response surface methodology

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