Bioremediation of heavy oily sludge: a microcosms study

Cinthya Rondon-Afanador; Gustavo Pinilla-Meza; Francy C. Casallas-Cuervo; Camila Diaz-Vanegas; Daniela Barreto-Gomez; Carolina Benavides; Nicole Buitrago; Melissa Calvo; Camila Forero-Forero; Valentina Galvis-Ibarra; Victoria Moscoso-Urdaneta; Maria C. Perdomo-Rengifo; Laura Torres; Ziv Arbeli; Robin L. Brigmon; Fabio Roldan

doi:10.1007/s10532-022-10006-1

Bioremediation of heavy oily sludge: a microcosms study

Cinthya Rondon-Afanador, Gustavo Pinilla-Meza, Francy C. Casallas-Cuervo, Camila Diaz-Vanegas, Daniela Barreto-Gomez, Carolina Benavides, Nicole Buitrago, Melissa Calvo, Camila Forero-Forero, Valentina Galvis-Ibarra, Victoria Moscoso-Urdaneta, Maria C. Perdomo-Rengifo, Laura Torres, Ziv Arbeli, Robin L. Brigmon, Fabio Roldan

Department of Biology

Research output: Contribution to journal › Review article › peer-review

14 Scopus citations

Abstract

Oily sludge is a residue from the petroleum industry composed of a mixture of sand, water, metals, and high content of hydrocarbons (HCs). The heavy oily sludge used in this study originated from Colombian crude oil with high density and low American Petroleum Institute (API) gravity. The residual waste from heavy oil processing was subject to thermal and centrifugal extraction, resulting in heavy oily sludge with very high density and viscosity. Biodegradation of the total petroleum hydrocarbons (TPH) was tested in microcosms using several bioremediation approaches, including: biostimulation with bulking agents and nutrients, the surfactant Tween 80, and bioaugmentation. Select HC degrading bacteria were isolated based on their ability to grow and produce clear zones on different HCs. Degradation of TPH in the microcosms was monitored gravimetrically and with gas chromatography (GC). The TPH removal in all treatments ranged between 2 and 67%, regardless of the addition of microbial consortiums, amendments, or surfactants within the tested parameters. The results of this study demonstrated that bioremediation of heavy oily sludge presents greater challenges to achieve regulatory requirements. Additional physicochemical treatments analysis to remediate this recalcitrant material may be required to achieve a desirable degradation rate.

Original language	English
Pages (from-to)	1-20
Number of pages	20
Journal	Biodegradation
Volume	34
Issue number	1
DOIs	https://doi.org/10.1007/s10532-022-10006-1
State	Published - Feb 2023

Keywords

Bioaugmentation
Biodegradation
Biostimulation
Heavy oily sludge
Microcosms
Total petroleum hydrocarbons

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10.1007/s10532-022-10006-1

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Rondon-Afanador, C., Pinilla-Meza, G., Casallas-Cuervo, F. C., Diaz-Vanegas, C., Barreto-Gomez, D., Benavides, C., Buitrago, N., Calvo, M., Forero-Forero, C., Galvis-Ibarra, V., Moscoso-Urdaneta, V., Perdomo-Rengifo, M. C., Torres, L., Arbeli, Z., Brigmon, R. L., & Roldan, F. (2023). Bioremediation of heavy oily sludge: a microcosms study. Biodegradation, 34(1), 1-20. https://doi.org/10.1007/s10532-022-10006-1

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title = "Bioremediation of heavy oily sludge: a microcosms study",

abstract = "Oily sludge is a residue from the petroleum industry composed of a mixture of sand, water, metals, and high content of hydrocarbons (HCs). The heavy oily sludge used in this study originated from Colombian crude oil with high density and low American Petroleum Institute (API) gravity. The residual waste from heavy oil processing was subject to thermal and centrifugal extraction, resulting in heavy oily sludge with very high density and viscosity. Biodegradation of the total petroleum hydrocarbons (TPH) was tested in microcosms using several bioremediation approaches, including: biostimulation with bulking agents and nutrients, the surfactant Tween 80, and bioaugmentation. Select HC degrading bacteria were isolated based on their ability to grow and produce clear zones on different HCs. Degradation of TPH in the microcosms was monitored gravimetrically and with gas chromatography (GC). The TPH removal in all treatments ranged between 2 and 67%, regardless of the addition of microbial consortiums, amendments, or surfactants within the tested parameters. The results of this study demonstrated that bioremediation of heavy oily sludge presents greater challenges to achieve regulatory requirements. Additional physicochemical treatments analysis to remediate this recalcitrant material may be required to achieve a desirable degradation rate.",

keywords = "Bioaugmentation, Biodegradation, Biostimulation, Heavy oily sludge, Microcosms, Total petroleum hydrocarbons",

author = "Cinthya Rondon-Afanador and Gustavo Pinilla-Meza and Casallas-Cuervo, {Francy C.} and Camila Diaz-Vanegas and Daniela Barreto-Gomez and Carolina Benavides and Nicole Buitrago and Melissa Calvo and Camila Forero-Forero and Valentina Galvis-Ibarra and Victoria Moscoso-Urdaneta and Perdomo-Rengifo, {Maria C.} and Laura Torres and Ziv Arbeli and Brigmon, {Robin L.} and Fabio Roldan",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2023",

month = feb,

doi = "10.1007/s10532-022-10006-1",

language = "English",

volume = "34",

pages = "1--20",

journal = "Biodegradation",

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Rondon-Afanador, C, Pinilla-Meza, G, Casallas-Cuervo, FC, Diaz-Vanegas, C, Barreto-Gomez, D, Benavides, C, Buitrago, N, Calvo, M, Forero-Forero, C, Galvis-Ibarra, V, Moscoso-Urdaneta, V, Perdomo-Rengifo, MC, Torres, L, Arbeli, Z, Brigmon, RL & Roldan, F 2023, 'Bioremediation of heavy oily sludge: a microcosms study', Biodegradation, vol. 34, no. 1, pp. 1-20. https://doi.org/10.1007/s10532-022-10006-1

TY - JOUR

T1 - Bioremediation of heavy oily sludge

T2 - a microcosms study

AU - Rondon-Afanador, Cinthya

AU - Pinilla-Meza, Gustavo

AU - Casallas-Cuervo, Francy C.

AU - Diaz-Vanegas, Camila

AU - Barreto-Gomez, Daniela

AU - Benavides, Carolina

AU - Buitrago, Nicole

AU - Calvo, Melissa

AU - Forero-Forero, Camila

AU - Galvis-Ibarra, Valentina

AU - Moscoso-Urdaneta, Victoria

AU - Perdomo-Rengifo, Maria C.

AU - Torres, Laura

AU - Arbeli, Ziv

AU - Brigmon, Robin L.

AU - Roldan, Fabio

PY - 2023/2

Y1 - 2023/2

N2 - Oily sludge is a residue from the petroleum industry composed of a mixture of sand, water, metals, and high content of hydrocarbons (HCs). The heavy oily sludge used in this study originated from Colombian crude oil with high density and low American Petroleum Institute (API) gravity. The residual waste from heavy oil processing was subject to thermal and centrifugal extraction, resulting in heavy oily sludge with very high density and viscosity. Biodegradation of the total petroleum hydrocarbons (TPH) was tested in microcosms using several bioremediation approaches, including: biostimulation with bulking agents and nutrients, the surfactant Tween 80, and bioaugmentation. Select HC degrading bacteria were isolated based on their ability to grow and produce clear zones on different HCs. Degradation of TPH in the microcosms was monitored gravimetrically and with gas chromatography (GC). The TPH removal in all treatments ranged between 2 and 67%, regardless of the addition of microbial consortiums, amendments, or surfactants within the tested parameters. The results of this study demonstrated that bioremediation of heavy oily sludge presents greater challenges to achieve regulatory requirements. Additional physicochemical treatments analysis to remediate this recalcitrant material may be required to achieve a desirable degradation rate.

AB - Oily sludge is a residue from the petroleum industry composed of a mixture of sand, water, metals, and high content of hydrocarbons (HCs). The heavy oily sludge used in this study originated from Colombian crude oil with high density and low American Petroleum Institute (API) gravity. The residual waste from heavy oil processing was subject to thermal and centrifugal extraction, resulting in heavy oily sludge with very high density and viscosity. Biodegradation of the total petroleum hydrocarbons (TPH) was tested in microcosms using several bioremediation approaches, including: biostimulation with bulking agents and nutrients, the surfactant Tween 80, and bioaugmentation. Select HC degrading bacteria were isolated based on their ability to grow and produce clear zones on different HCs. Degradation of TPH in the microcosms was monitored gravimetrically and with gas chromatography (GC). The TPH removal in all treatments ranged between 2 and 67%, regardless of the addition of microbial consortiums, amendments, or surfactants within the tested parameters. The results of this study demonstrated that bioremediation of heavy oily sludge presents greater challenges to achieve regulatory requirements. Additional physicochemical treatments analysis to remediate this recalcitrant material may be required to achieve a desirable degradation rate.

KW - Bioaugmentation

KW - Biodegradation

KW - Biostimulation

KW - Heavy oily sludge

KW - Microcosms

KW - Total petroleum hydrocarbons

UR - http://www.scopus.com/inward/record.url?scp=85143290359&partnerID=8YFLogxK

U2 - 10.1007/s10532-022-10006-1

DO - 10.1007/s10532-022-10006-1

M3 - Review article

C2 - 36463546

AN - SCOPUS:85143290359

SN - 0923-9820

VL - 34

SP - 1

EP - 20

JO - Biodegradation

JF - Biodegradation

IS - 1

ER -

Bioremediation of heavy oily sludge: a microcosms study

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Keywords

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