Abu Gideon scite author profile

Abu Gideon

2Publications

4Citation Statements Received

25Citation Statements Given

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University of Port Harcourt

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Biosurfactant production from Palm Oil Mill Effluent (POME) for applications as oil field chemical in Nigeria.

Hope

Gideon

2015

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The interest of Petroleum industry in biosurfactant production has increased considerably in recent years as a possible replacement for chemical surfactants which are known for their high toxicity and non-degradability. Biosurfactants are amphiphillic surface active agents produced by microrganisms. They are biodegradable and have been found useful in oil field applications such as bioremediation of hydrocarbon impacted media due to their enhanced oil recovery ability, solubilisation, removal of oil from contaminated soil and sludge in oil storage tanks, dispersion of oil spills, transfer of crude oil and bioremediation of recalcitrant molecules without a residual toxic effect on the environment. These properties make their usage more advantageous over their synthetic counterparts. Biosurfactants can be obtained with the use of agro-industrial waste such as Palm Oil Mill Effluent (POME) as substrate, this helps to reduce overall production costs. Microrganisms have demonstrated the ability to utilize POME as a carbon source accompanied with biosurfactant production. This is due to their unique metabolic pathways which makes them a useful tool in the bio-industry. Production of biosurfactants from POME will not only reduce its production cost but will also encourage the use of our indigenous raw material thus reducing the amount of waste released into the environment and contributing immensely to sustainable waste management. The present review describes the production of biosurfactant from POME and its applications in oil field industry.

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Laboratory-Scale Bioremediation of Crude Oil Polluted Soil Using a Consortia of Rhizobacteria Obtained from Plants in Gokana-Ogoni, Rivers State

Emmanuel

Effiong

Gideon

2018

JAMB

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Background: The use of consortia of rhizobacterial flora in bioaugmentation of autochthonous flora cannot be over-emphasized. Aim: This study sought to assess the potentials of rhizobacterial obtained from pre-exposed plants to crude oil pollution at Bodo creeks, Gokana-Ogoni, Nigeria. Methods: In this 4-weeks study, polluted soil was spiked using a soil auger while three different plants were randomly obtained from the study area and aseptically transported to the environmental microbiology laboratory, University of Port Harcourt. Baseline physicochemical and microbiological evaluation was performed on the soil samples. Biochemical and morphological features were employed in the characterization of the isolates. Bioremediation monitoring was performed on spiked soil of total petroleum hydrocarbon concentration of 17,000 mg/kg within 14 days of the study. Percentage degradation of the crude oil was evaluated. Results: The three plants, Schoenoplectus senegalensis, Fuirena umbellata and Cyperus tuberosus from whose rhizobacteria were randomly obtained at different points at a depth of 10-15

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Abu Gideon

Biosurfactant production from Palm Oil Mill Effluent (POME) for applications as oil field chemical in Nigeria.

Laboratory-Scale Bioremediation of Crude Oil Polluted Soil Using a Consortia of Rhizobacteria Obtained from Plants in Gokana-Ogoni, Rivers State

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