Algal treatment of wastewater generated during oil and gas production using hydraulic fracturing technology

Lutzu, Giovanni Antonio; Dunford, Nurhan Turgut

doi:10.1080/09593330.2017.1415983

Cited by 17 publications

(13 citation statements)

References 31 publications

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“…Renuka, Sood, Ratha, et al () found that an algae consortium reduced TDS by 28% (from 1,120 to 806 mg/L). More than 50% reduction of TDS from mixed industrial wastewaters was reported with the consortium of Chlorella and Phormidium after 20 days of incubation (Das, Ramaiah, Pereira, & Naseera, ), while even higher TDS removal efficiency (65%–80%) was reported in industrial wastewaters (Khan et al, ), oil and gas production wastewater (Lutzu & Dunford, ), and distiller wastewater (Krishnamoorthy et al, ). From a percentage perspective, the TDS removal efficiency reported in this work (TDS‐E [%], Table ), particularly for the BC reactor, was in the lower end compared to the date reported in previous research.…”

Section: Resultsmentioning

confidence: 96%

“…In this work, the BC and RAB reactors were based on the continuous culture resulting in a much higher volumetric removal rate (i.e., TDS‐R volume [mg/L‐day], Table ). For example, the BC reactor removed TDS at a rate of 21–121 mg/L‐day (Table ) and the RAB system removed at 101–2,783 mg/L‐day, while the TDS removal rates of the previous reports were calculated as 9 mg/L‐day (Maity et al, ), 25 mg/L‐day (El‐Bestawy, ), 45 mg/L‐day (Renuka, Sood, Ratha, et al, ), 130 mg/L‐day (Das et al, ), 349 mg/L‐day (Lutzu & Dunford, ), 9–30 mg/L‐day (Khan et al, ), and 4 mg/L‐day (Krishnamoorthy et al, ). With the further process optimization such as light intensity, TDS removal efficiency by the RAB and BC reactors can be further increased.…”

Section: Resultsmentioning

confidence: 99%

“…Compared to the existing methods, biological absorption by microalgae is a mild and environmental friendly method for TDS removal. Algal cells absorb TDS species as nutrients and minerals to support their physiology and metabolisms while reducing TDS in water (Cho, Luong, Lee, Oh, & Lee, ; Khan, Shamshad, Waqas, Nawab, & Ming, ; Krishnamoorthy, Manickam, & Muthukaruppan, ; Lutzu & Dunford, ; Renuka, Sood, Ratha, Prasanna, & Ahluwalia, ; Sydney et al, ; Zhou, Li, et al, ). A consortium of filamentous algae was reported to reduce TDS of sewage water from 1,120 to 806 mg/L over 6 days (Renuka, Sood, Ratha, Prasanna, & Ahluwalia, ).…”

Section: Introductionmentioning

confidence: 99%

“…Khan et al () reported 79% TDS removal from industrial wastewater within 12 days. In oil and gas production wastewater treatment, algae can remove up to 65% TDS over 30 days (Lutzu & Dunford, ). Krishnamoorthy et al () used blue‐green algae to treat distiller wastewater with 64%–80% TDS removal over 7 days.…”

Section: Introductionmentioning

confidence: 99%

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Removal of total dissolved solids from wastewater using a revolving algal biofilm reactor

Peng

Kumar

Gross

et al. 2019

Water Environment Research

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Total dissolved solids (TDS) comprising inorganic salts and organic matters are pollutants of concern to aquatic systems and water for human use. This work aimed to investigate the use of revolving algal biofilm (RAB) reactors as a sustainable and environmental friendly method to remove TDS from industrial effluents and municipal wastewaters. The wastewaters contained chloride, sodium, potassium, calcium, magnesium, and sulfate as the major components. The RAB reactors fed with synthetic industrial effluent with high TDS level demonstrated the best algal growth, with the highest TDS removal efficiency (27%) and removal rate (2,783 mg/L-day and 19,530 mg/m 2 -day). A suspended algal culture system only removed 3% TDS from the same wastewater. The TDS removal by the RAB reactors was considered due to several mechanisms such as absorption by the algae cells, adsorption by extracellular polymeric substance of the biofilm, and/or precipitation. Collectively, this research shows that the RAB reactors can serve as an efficient system in wastewater remediation for TDS removal. © 2019 Water Environment Federation • Practitioner points• Total dissolved solids (TDS) in wastewater are pollutants of concern. • The RAB reactors can remove TDS from various types of wastewater. • The RAB reactors removed TDS by adsorbing ions elements such as Cl, Na, K, Ca, Mg, and S. • The algal biomass absorbs ions through extracellular polymeric substance.

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Section: Resultsmentioning

confidence: 96%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Removal of total dissolved solids from wastewater using a revolving algal biofilm reactor

Peng

Kumar

Gross

et al. 2019

Water Environment Research

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“…Large amounts of wastewater are produced during fracturing process to extract oil from deep shale strata. [1][2][3] Consequently, polluted water will threaten the health and viability of all living organisms. 4 Guar gum is considered one of the main component of oilfield wastewater.…”

Section: Introductionmentioning

confidence: 99%

Heterogeneous degradation of oil field additives by Cu(II) complex‐activated persulfate oxidation

Tang

Zhou

et al. 2020

Env Prog and Sustain Energy

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In this work, bentonite‐supported Cu(II) complex (B@Cu(II)L) was prepared by a one‐pot method and used as a heterogeneous catalyst for evaluating its catalytic activity in oxidation degradation of hydroxypropyl guar gum (HPGG) in oilfield wastewater. All of the reaction parameters effected degradation efficiency, such as Na2S2O8 concentration, catalyst amount, reaction temperature, and pH value, were investigated in detail. The results showed that the absolute viscosity of HPGG solution can be decreased from 15 to 1.48 mm2/s in presence of 15% Na2S2O8 (mass ratio to HPGG) and 1.5 g/L B@Cu(II)L at 45°C and pH = 10. It was also found that the chemical oxygen demand of HPGG solution catalyzed by B@Cu(II)L decreased from 4,080 to 584 mg/L after 240 min under the optimum experimental conditions. The catalytic activity of supported bivalent copper complexes over bentonite was gradually decreased due to the loss of the active copper.

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Characterization of hypersaline Oklahoma native microalgae cultivated in flowback and produced water: growth profile and contaminant removal

Lutzu,

Concas,

Dunford

2024

Bioprocess Biosyst Eng

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Algal treatment of wastewater generated during oil and gas production using hydraulic fracturing technology

Cited by 17 publications

References 31 publications

Removal of total dissolved solids from wastewater using a revolving algal biofilm reactor

Removal of total dissolved solids from wastewater using a revolving algal biofilm reactor

Heterogeneous degradation of oil field additives by Cu(II) complex‐activated persulfate oxidation

Characterization of hypersaline Oklahoma native microalgae cultivated in flowback and produced water: growth profile and contaminant removal

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