The Bio-utilization of Used and Unused car Lubricants by Autochthonous Microorganisms

F. Akubuenyi, J. Tarh, J. D. Idoko
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Abstract

The determination of the bio-utilization of used and unused car lubricants; engine oil, hydraulic and transition oil were analyzed using viable counts and spectrophotometric analysis. The oil samples were collected with 10 sterile containers from different mechanic workshops in Calabar; Unical workshop, designated as UNICAL Workshop (A), Akim (B), Mount Zion (C), Etta Agbor (D), and Ekpo Abasi (E). The spectrophotometric analysis revealed absorbance ranging from 2.16 to 2.69nm for engine oil, 0.57 to 1.21nm for hydraulic oil and 1.96 to 2.40nm for transition oil. The total heterotrophic counts of the used engine oil ranged from 1.2x1010 CFU/ml to 4.0x1010 CFU/ml; hydraulic oil ranged from 1.0x1010 CFU/ml to 2.2x1010 CFU/ml; Transition oil ranged from 1.0x1010 CFU/ml to 2.5x1010 CFU/ml. The THB counts of the unused oils had an average count of 1.0x10110 CFU/ml. The enumeration of the total fungal showed lower counts ranging from 1.0x1010 CFU/ml to 2.2x1010 CFU/ml for engine oil; 1.0x1010 CFU/ml to 1.5x1010 CFU/ml for hydraulic oil and 1.0x1010CFU/ml to 1.4x1010 CFU/ml for transition oil. The unused oil had very much lower fungal counts. The identification processes revealed the presence of Pseudomonas spp. (6.5%), Bacillus spp. (13%), Streptobacilli (21.7%), Micrococcus spp. (21.7%), Actinomyces spp. (8.6%), Nocardia spp. (4.3%), Staphylococcus spp. (10.8%), Listeria spp. (8.6%), Serratia spp. (2.1%) and Lactobacillus (2.1%). While the fungal isolates were identified as Aspergillus niger (75%), Aspergillus flavus (13.8%), Aspergillus lentulus (5.52%), Candida spp. (2.7%) and Curvularia spp. (2.7%). This result suggests that these isolated organisms from used and unused car lubricants can use oil lubricants as a source of carbon and energy, and could be explored for environmental biodegradation of hydrocarbons and bioremediation of polluted sites by these oils. Due to the medical importance of the identified organisms, care should be taken while working with the organisms, to avoid opportunistic infections.
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用过和未用过的汽车润滑油的生物利用的本地微生物
测定使用过和未使用过的汽车润滑油的生物利用率;采用活菌计数法和分光光度法对发动机油、液压油和过渡油进行了分析。油样用10个无菌容器从卡拉巴尔不同的机械车间采集;Unical车间,指定为Unical车间(A), Akim (B), Mount Zion (C), Etta Agbor (D)和Ekpo Abasi (E)。分光光度分析显示,吸光度范围为2.16至2.69nm,液压油为0.57至1.21nm,过渡油为1.96至2.40nm。废旧机油的总异养计数范围为1.2 × 1010 CFU/ml ~ 4.0 × 1010 CFU/ml;液压油范围为1.0 × 1010 CFU/ml至2.2 × 1010 CFU/ml;过渡油的范围从1.0 × 1010 CFU/ml到2.5 × 1010 CFU/ml。未使用油的THB计数平均为1.0 × 10110 CFU/ml。总真菌计数显示,机油中真菌计数较低,范围为1.0 × 1010 CFU/ml ~ 2.2 × 1010 CFU/ml;液压油为1.0 × 1010CFU/ml至1.5 × 1010CFU/ml,过渡油为1.0 × 1010cfu /ml至1.4 × 1010CFU/ml。未使用过的油真菌数量要低得多。检出假单胞菌(6.5%)、芽孢杆菌(13%)、链球菌(21.7%)、微球菌(21.7%)、放线菌(8.6%)、诺卡菌(4.3%)、葡萄球菌(10.8%)、李斯特菌(8.6%)、沙雷氏菌(2.1%)和乳杆菌(2.1%)。分离到的真菌分别为黑曲霉(75%)、黄曲霉(13.8%)、香曲霉(5.52%)、念珠菌(2.7%)和曲霉(2.7%)。该结果表明,这些从废旧和未使用的汽车润滑油中分离出来的生物可以将润滑油作为碳和能源的来源,并可用于碳氢化合物的环境生物降解和污染场地的生物修复。由于所鉴定的生物在医学上的重要性,在处理这些生物时应小心,以避免机会性感染。
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