Characterization of Potential Paraffin Wax Removing Bacteria for Sustainable Biotechnological Application

Day 3 Wed, August 07, 2019 Pub Date : 2019-08-05 DOI:10.2118/198799-MS

A. U. Okoye, C. Chikere, G. Okpokwasili

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引用次数: 5

Abstract

The presence of paraffin wax precipitation and deposition in tubing surfaces during production is one of the all-encompassing nuisances in oil and gas industry operations worldwide and it causes major production problems. The study aimed at acquiring novel insights into the bacterial community diversity capable of utilizing paraffin wax. Samples were collected from crude oil-polluted site in Gio Community, Tai Local Government Area, Niger Delta, Nigeria at depth of 0-0.5m (surface polluted soil [SPS]), 1m (sub surface polluted soil [SPSS]). GPS coordinate points for the North, South, East and West were N40 41′ 39″; N40 41′ 38″; N40 41′ 38″ and N40 41′ 37″ for latitudes respectively. Longitudes for the coordinates were E70 13′ 49″; E70 13′54″; E70 13′ 53″ and E70 13′ 54″ for North, respectively and unpolluted soil (UPS) taken 80m away from polluted site as control. All samples were transported to the laboratory within 6h at 4°C for analyses. Biodegradation screening was carried out using 2, 6-dichlorophenol indophenol (DCPIP) (redox potential +0.217 V) indicator to evaluate the biodegradation of hexadecane, paraffin oil and crude oil by axenic cultures of the bacteria isolated. GC-FID analysis for total petroleum hydrocarbons (TPH) were 22,146.65ppm for (surface polluted soil [SPS]), 14,087.80ppm (sub surface [SPSS]) and control soil (UPS) 479.67ppm respectively. Polycyclic aromatic hydrocarbons (PAHs) were 12,209.3ppm for SPS, 3,248.75ppm for SPSS and 22.72ppm for UPS. Total cultivable hydrocarbon utilizing bacterial count (TCHUB) for SPS, SPSS and UPS were 8.4 × 105cfu/g, 8.0 × 105cfu/g and 3.96 × 104cfu/g respectively. Pseudomonas spp., Bacillus spp., Acinetobacter sp. and Serratia sp. demonstrated higher biodegradability of paraffin wax than other 62 TCHUB isolated. These bacteria may probably represent an alternative green method for scale removal in the oil and gas sector.

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具有可持续生物技术应用潜力的脱蜡细菌的特性研究

在生产过程中，石蜡在油管表面的沉淀和沉积是全球油气行业作业中普遍存在的问题之一，它会导致重大的生产问题。该研究旨在获得新的见解，细菌群落多样性能够利用石蜡。样本采集于尼日利亚尼日尔三角洲Tai地方政府区Gio社区原油污染现场，深度0-0.5m(表层污染土壤[SPS])， 1m(次表层污染土壤[SPSS])。北、南、东、西的GPS坐标点为N40 41′39″;N40 41 ' 38″;纬度分别为N40 41′38″和N40 41′37″。经度为E70 13′49″;E70 13“54”;E70 13’53″和E70 13’54″分别为北部，未污染土壤(UPS)以距污染场地80m为对照。所有样品在4°C下于6小时内送到实验室进行分析。采用2,6 -二氯酚吲哚酚(DCPIP)(氧化还原电位+0.217 V)指标进行生物降解筛选，对分离出的细菌进行无菌培养，评价其对十六烷、石蜡油和原油的生物降解能力。GC-FID分析结果显示，表层污染土壤(SPS)、地下污染土壤(SPSS)和对照土壤(UPS)的总石油烃(TPH)分别为22146.65 ppm、14087.80 ppm和479.67ppm。SPS的多环芳烃(PAHs)含量为12,209.3ppm, SPSS为3,248.75ppm, UPS为22.72ppm。SPS、SPSS和UPS的可利用细菌总数(TCHUB)分别为8.4 × 105cfu/g、8.0 × 105cfu/g和3.96 × 104cfu/g。假单胞菌、芽孢杆菌、不动杆菌和沙雷氏菌对石蜡的生物降解性高于其他62株TCHUB。这些细菌可能代表了石油和天然气行业中除垢的另一种绿色方法。

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Day 3 Wed, August 07, 2019

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