Uttam Ray Chaudhuri scite author profile

Polyethylene was incubated with a bio-surfactant producing bacterium B. licheniformis for 2 months in a suitable media. Low concentrations of NaCl were added to study its effect on the bio-surfactants activity. Being amphiphilic, the surfactant has a unique ability to decrease the surface energy, and this decrease measured using the surface tension of the medium was 50%. The surfactant was able to oxidize both control (unoxidized) and pre-oxidized polyethylene during incubation. The oxidation level of the control polyethylene sample was increased in the presence of NaCl, and the oxidation level was higher in the presence of 1% NaCl as compared to that found with 0.5% NaCl. A higher amount of surfactant was also produced, as observed by the comparatively low surface tension in the presence of NaCl. During the bio-oxidation of polyethylene, higher amounts of unsaturated hydrocarbons were formed as compared to carbonyl groups. This oxidation was also observed through the reduced crystalline property and cracked polyethylene surface using SEM. It was also observed that the product formed during the oxidation by the bio-surfactant could be solubilised into liquid media. For this rapid loss of oxidation product, a decrease in the mechanical properties of all the treated polyethylene samples was observed, and this deterioration was highest in the case of the pre-oxidised polyethylene incubated with the bio-surfactant for 2 months. In this study, a novel unique method for the biooxidation of polyethylene using a bio-surfactant was established.

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Modeling & Simulation of a Crude Petroleum Desalter using Artificial Neural Network

Chaudhuri

Ghosh²

2009

Petroleum Science and Technology

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Fundamentals of Automatic Process Control

Chaudhuri¹,

Chaudhuri²

2012

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Hydroprocessing of a North Gujarat Crude Oil Blend

Chaudhuri

Banerjee

Ghar

et al. 2001

Petroleum Science and Technology

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Hydroprocessing of a North Gujarat Crude oil (of Indian Origin) in a light gas oil solution was carried out over a commercial hydrotreating catalyst at a temperature between 300 to 450 C and a pressure of 6.8 to 20 Mpa in a laboratory reactor. About 30 to 60% of the long residue (365 C þ cut) in the solution is converted to light distillates. Simultaneous removal of sulfur, nitrogen, oxygen and metals took place in substantial quantities.

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Crude Petroleum Oil

Chaudhuri¹

2016

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Instrumentation and Control in a Refi nery

Chaudhuri¹

2016

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Plant Management and Economics

Chaudhuri¹

2016

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