Biological treatment of mineral oil in a salty environment

To enhance the treatment efficiency from an anaerobic digester, a novel six-compartment anaerobic/oxic baffled reactor (A/OBR) was employed. Two kinds of split-feeding A/OBRs R2 and R3, with influent fed in the 1st, 3rd and 5th compartment of the reactor simultaneously at the respective ratios of 6:3:1 and 6:2:2, were compared with the regular-feeding reactor R1 when all influent was fed in the 1st compartment (control). Three aspects, the COD removal, the hydraulic characteristics and the bacterial community, were systematically investigated, compared and evaluated. The results indicated that R2 and R3 had similar tolerance to loading shock, but the R2 had the highest COD removal of 91.6% with a final effluent of 345 mg/L. The mixing patterns in both split-feeding reactors were intermediate between plug-flow and completely-mixed, with dead spaces between 8.17% and 8.35% compared with a 31.9% dead space in R1. Polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) analysis revealed that the split-feeding strategy provided a higher bacterial diversity and more stable bacterial community than that in the regular-feeding strategy. Further analysis indicated that Firmicutes, Bacteroidetes, and Proteobacteria were the dominant bacteria, among which Firmicutes and Bacteroidetes might be responsible for organic matter degradation and Proteobacteria for nitrification and denitrification.

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“…Yang et al . reported that it would be toxic to uncultivated microorganisms if the salt concentration in wastewater exceeded 1.0% 41 . Ji et al .…”

Section: Discussionmentioning

confidence: 99%

Evaluation of A Novel Split-Feeding Anaerobic/Oxic Baffled Reactor (A/OBR) For Foodwaste Anaerobic Digestate: Performance, Modeling and Bacterial Community

Wang

Peng

Jiang

et al. 2016

Sci Rep

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“…On the contrary, various processes, namely, ultrafiltration/reverse osmosis (UF/RO), photocatalytic processes, wet air oxidation and biological treatment investigated for the possibility of removal of petroleum hydrocarbons from oily bilge water treatment yielded comparatively lower removals [1,4,23,24]. However, severe conditions associated with wet air oxidation mean high installation and operating costs, as well as serious corrosion problems associated, and make it inappropriate as an on board facility.…”

Section: Efficiency and Reproducibility Of The Obw Treatment By Combimentioning

confidence: 99%

“…Likewise, many problems related to the longterm efficacy of the UF/RO membranes and issues related to the proper sizing of channels (lumens) within membrane modules remain due to the presence of used oil, detergent and salts in oily bilgewater. Furthermore, bioremediation techniques are slower [24]. In this case, the electrocoagulation shows more promise for treatment of OBW as it is regarded as a flexible, compact and fairly less expensive technology.…”

Section: Efficiency and Reproducibility Of The Obw Treatment By Combimentioning

confidence: 99%

Organics removal in oily bilgewater by electrocoagulation process

Asselin

Drogui

Brar

et al. 2008

Journal of Hazardous Materials

138

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“…With epichlorohydrin as the sole carbon source, the strain grew with the following kinetic values: mmax = 0.25 per hour, K S = 0.59 g/L, and K 1 = 2.79 g/L. A lab-scale aerobic biofilter gave 95% removal of TOC in a mineral-oil tainted salt water at TOC feed concentrations and loading of 1000 mg/L and 1.5 kg TOC/m 3 ·d, respectively (Yang and Lai, 2000). The first order rate constant calculated for the system of 0.169 per hour.…”

Section: Filter Mediamentioning

confidence: 99%