Combined hydrolysis acidification and bio-contact oxidation system with air-lift tubes and activated carbon bioreactor for oilfield wastewater treatment

•Three isolated bacterial strains were evaluated and used in pilot plant test.•The pilot plant was started up quickly by adding microbes and nutrients.•Installation of air-lift tubes enhanced COD reduction in aerobic tanks.•Activated carbon bioreactor (ACB) was an intensive COD reduction device.•An...

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Bibliographic Details
Published in:Bioresource technology 2014-10, Vol.169, p.630-636
Main Authors: Guo, Chunmei, Chen, Yi, Chen, Jinfu, Wang, Xiaojun, Zhang, Guangqing, Wang, Jingxiu, Cui, Wenfeng, Zhang, Zhongzhi
Format: Article
Language:English
Subjects:
Acids - chemistry
Activated carbon bioreactor
Air
Air-lift tubes
Applied sciences
Bacteria - metabolism
Biodegradation, Environmental
Biological and medical sciences
Biological Oxygen Demand Analysis
Bioreactors
Bioreactors - microbiology
Biotechnology
Charcoal - chemistry
COD removal
Combined process
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Hydrocarbons - isolation & purification
Hydrogen-Ion Concentration
Hydrolysis
Methods. Procedures. Technologies
Oil and Gas Fields - chemistry
Oilfield wastewater treatment
Oxidation-Reduction
Oxygen - analysis
Petroleum - microbiology
Pilot Projects
Pollution
Temperature
Various methods and equipments
Waste Water - chemistry
Waste Water - microbiology
Wastewaters
Water Purification - instrumentation
Water Purification - methods
Water treatment and pollution
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Summary:•Three isolated bacterial strains were evaluated and used in pilot plant test.•The pilot plant was started up quickly by adding microbes and nutrients.•Installation of air-lift tubes enhanced COD reduction in aerobic tanks.•Activated carbon bioreactor (ACB) was an intensive COD reduction device.•An existing wastewater treatment plant can be upgraded by adding an ACB. This paper investigated the enhancement of the COD reduction of an oilfield wastewater treatment process by installing air-lift tubes and adding an activated carbon bioreactor (ACB) to form a combined hydrolysis acidification and bio-contact oxidation system with air-lift tubes (HA/air-lift BCO) and an ACB. Three heat-resistant bacterial strains were cultivated and subsequently applied in above pilot plant test. Installing air-lift tubes in aerobic tanks reduced the necessary air to water ratio from 20 to 5. Continuous operation of the HA/air-lift BCO system for 2months with a hydraulic retention time of 36h, a volumetric load of 0.14kgCOD/(m3d) (hydrolysis-acidification or anaerobic tank), and 0.06kgCOD/(m3d) (aerobic tanks) achieved an average reduction of COD by 60%, oil and grease by 62%, total suspended solids by 75%, and sulfides by 77%. With a COD load of 0.56kg/(m3d), the average COD in the ACB effluent was 58mg/L.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2014.07.018