Treatment of crude oil contaminated wastewater <i>via</i> an electrochemical reaction

Sharma, Khanindra; Kalita, Sanjeeb; Sarma, Neelotpal Sen; Devi, Arundhuti

doi:10.1039/c9ra09202a

Cited by 20 publications

(2 citation statements)

References 51 publications

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“…In the process, ZnO NPs were synthesized by the electrochemical method. GCMS results revealed that the NPs absorbed 131 hydrocarbon compounds out of 214 (Sharma et al 2020 ). Thus, from the above discussion, it can be affirmed that nanotechnology can be widely used to remediate oil contamination.…”

Section: Can Nanotechnology and Artificial Intelligence (Ai) Revoluti...mentioning

confidence: 99%

Advanced bioremediation by an amalgamation of nanotechnology and modern artificial intelligence for efficient restoration of crude petroleum oil-contaminated sites: a prospective study

Patowary

Devi

Mukherjee

2023

Environ Sci Pollut Res

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Crude petroleum oil spillage is becoming a global concern for environmental pollution and poses a severe threat to flora and fauna. Bioremediation is considered a clean, eco-friendly, and cost-effective process to achieve success among the several technologies adopted to mitigate fossil fuel pollution. However, due to the hydrophobic and recalcitrant nature of the oily components, they are not readily bioavailable to the biological components for the remediation process. In the last decade, nanoparticle-based restoration of oil-contaminated, owing to several attractive properties, has gained significant momentum. Thus, intertwining nano- and bioremediation can lead to a suitable technology termed ‘nanobioremediation’ expected to nullify bioremediation’s drawbacks. Furthermore, artificial intelligence (AI), an advanced and sophisticated technique that utilizes digital brains or software to perform different tasks, may radically transfer the bioremediation process to develop an efficient, faster, robust, and more accurate method for rehabilitating oil-contaminated systems. The present review outlines the critical issues associated with the conventional bioremediation process. It analyses the significance of the nanobioremediation process in combination with AI to overcome such drawbacks of a traditional approach for efficiently remedying crude petroleum oil-contaminated sites.

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Section: Can Nanotechnology and Artificial Intelligence (Ai) Revoluti...mentioning

confidence: 99%

Advanced bioremediation by an amalgamation of nanotechnology and modern artificial intelligence for efficient restoration of crude petroleum oil-contaminated sites: a prospective study

Patowary

Devi

Mukherjee

2023

Environ Sci Pollut Res

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“…The FTIR spectra of treated water obtained from EC process represent the highly reduced band width (Figure 9) since the maximum removal efficiency was higher than that of C-F process. Sharma et al (2020) carried out a study on treatment of crude oil contaminated wastewater using EC process and found that treated samples had no adsorption peak compared with untreated sample FTIR spectra. The FTIR spectrum showed a considerable shift in peak position which was attributed to the removal of pollutants (Gautam, Kamsonlian, & Kumar, 2020).…”

Section: Ftir Analysismentioning

confidence: 99%

Optimization of pharmaceutical wastewater treatment by electrocoagulation and dual coagulation

Perumalsamy

Chithra

Ajith

et al. 2022

Water & Environment J

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The present study compares the treatment of pharmaceutical industry wastewater (PIWW) by coagulation‐flocculation (C‐F) and electrocoagulation (EC) techniques using response surface methodology (RSM). EC was performed with waste food‐grade Aluminium (Al) foil as a sacrificial anode. In C‐F, to minimize chemical usage, dual coagulants Aloe vera (organic) and ferric chloride (chemical) were used. Optimization using RSM for C‐F showed chemical oxygen demand (COD) reduction of 60.25 ± 0.28% at optimum operating conditions with R2 = 0.964 and adj‐R2 = 0.928, whereas EC resulted in COD reduction of 78.23 ± 0.38% and energy consumption 1.498 ± 0.0076kWh/m3 with R2 = 0.978 and adj‐R2 = 0.956. The result showed that the use of food‐grade waste Al foil as anode electrode (in EC) and the use of dual coagulant (in C‐F) can reduce COD from industrial effluent efficiently contributing to less hazardous sludge generation.

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Baseline study of water, soil, and identification of potential native phytoremediators of total petroleum hydrocarbon from oil-contaminated areas in the vicinity of Geleky oilfield of Assam

Sarma

Goswami

Rabha

et al. 2023

Environ Monit Assess

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Treatment of crude oil contaminated wastewater via an electrochemical reaction

Abstract: A novel electrochemical reaction was developed for the treatment of formation water and subsequently ZnO nanoparticles were synthesised in the in situ condition and further used as an adsorbing material for petroleum hydrocarbons.

Cited by 20 publications

References 51 publications

Advanced bioremediation by an amalgamation of nanotechnology and modern artificial intelligence for efficient restoration of crude petroleum oil-contaminated sites: a prospective study

Advanced bioremediation by an amalgamation of nanotechnology and modern artificial intelligence for efficient restoration of crude petroleum oil-contaminated sites: a prospective study

Optimization of pharmaceutical wastewater treatment by electrocoagulation and dual coagulation

Baseline study of water, soil, and identification of potential native phytoremediators of total petroleum hydrocarbon from oil-contaminated areas in the vicinity of Geleky oilfield of Assam

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