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AuthorDas P.
AuthorAbdulQuadir M.
AuthorThaher M.
AuthorKhan S.
AuthorChaudhary A.K.
AuthorAlghasal G.
AuthorAl-Jabri H.M.S.J.
Available date2020-04-25T01:02:21Z
Publication Date2019
Publication NameJournal of Applied Phycology
ISSN9218971
URIhttp://dx.doi.org/10.1007/s10811-018-1571-6
URIhttp://hdl.handle.net/10576/14460
AbstractDue to the presence of toxic organic compounds and heavy metals, it is essential to treat the produced water before reuse or discharge to the environment. In this study, produced water sample was collected from a local petroleum company. The sample had the following characteristics: pH: 4.17, total organic carbon (TOC): 720 ppm, total nitrogen (TN): 52.5 ppm, total phosphorus (TP): 0.21 ppm and salinity of 4.3 ppt. As a pretreatment, NaOH was added to raise the pH to 7.1 which removed 40% TOC, 38.3% TN, and 19% of TP. The growth viability of six microalgae strains (three freshwater and three marine) in the pretreated produced water (PPW) were studied in two conditions: (1) without additional nutrients and (2) with N and P supplementation. Out of these strains, only Chlorella sp. and Scenedesmus sp. were able to grow in both experiments. Chlorella sp. had the maximum biomass density on both occasions; it produced 1.2-g L-1 biomass density in the nutrient-supplemented PPW. Next, Chlorella sp. was grown in 1 L PBR to study the contaminant removal efficiencies. After 15 days of growth Chlorella sp. could remove 92% of the TN and 73% of the TOC from the PPW. Fish bio-assay was conducted using raw, pretreated, and biotreated produced water. Results indicate that the bioremediation process greatly reduced the toxicity of the produced water. Furthermore, the bioremediation process simultaneously generated 1.72 gL -1 biomass. Therefore, microalgal bioremediation of produced water provides an opportunity to produce a large quantity of biomass that can be used as feedstock for many products.
SponsorThis work was supported by Qatar Science and Technology Park (QSTP) of Qatar Foundation (QF), Qatar Airways (QA) and Qatar University (QU). We also acknowledge the support from Ms. Noora Mahmood Aljathelah of Environmental Science Center for the GC-MS analysis and Ms. Sherin Abdelfatah Mohamed Ahmed of Central Chemistry Lab for assisting in the ICP-MS analysis.
Languageen
PublisherSpringer Netherlands
SubjectBioremediation
SubjectMicroalgae
SubjectOil and gas industry
SubjectProduced water
SubjectToxicity
TitleMicroalgal bioremediation of petroleum-derived low salinity and low pH produced water
TypeArticle
Pagination435-444
Issue Number1
Volume Number31


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