C. Ketata scite author profile

A preliminary microscopic study of oil/oil droplet interactions in surfactantadded water is carried out to understand the oil/water interface changes with time and its effects on oil/oil droplet coalescence. This study is carried out on two oils (olive and crude oil) with varying concentrations of surfactant water ratios. The radii of curvature of the interface between coalescing oil droplets is used as a measure to reflect the change in surface energy. As oil droplets were placed in surfactant-added water, the radii of curvature were measured at three different states. Early state shows very little effect on oil/oil interfaces; in the later state, the effect is greater and interfacial tension decreases rapidly. At quasi-steady state, the state between the early and later, faster rate stage reduces with surfactant concentration in the case of olive oil. Increasing the surfactant concentration does not show the same effect on crude oil. The radii of curvature increase with time by increasing surfactant concentrations in olive oil; an inverse effect is found in crude oil. A natural surfactant prepared from the outer shell of pericarp of soapnut fruit was also used to study droplet formation and coalescence as well as to investigate the impact in interfacial tension and oil mobility.

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Expert System Knowledge Management for Laser Drilling in the Oil and Gas Industry

Ketata

Satish

Islam

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Variance of average stream compositions obtained by automatic incremental sampling

Hodouin

Ketata

1994

International Journal of Mineral Processing

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A Scaled Model Study of Waterjet Drilling

Hossain

Ketata

Islam

2009

Petroleum Science and Technology

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Laboratory experimental results of waterjet drilling have rarely been scaled up to the field scale. This article presents the scaling criteria for designing waterjet drilling laboratory experiments for simulating a given oilfield operation. Dimensional analysis is used to derive scaling groups for the waterjet drilling technique. The proposed scaling approach meets all important requirements of this drilling process. Experiments were conducted to determine the strength and the relation between the rate of penetration (ROP) and depth of penetration (DOP) with drilling time. Experimental results are scaled up for field application. Laboratory measurements with such models accurately duplicate the behavior of the drilling performance of a reservoir. Such modeling is the most effective tool for the study of drilling behavior, performance, and management in the reservoir field.

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C. Ketata

Characteristics of silicate glasses derived from vitrification of manganese crust tailings

Microscopic Study of Oil Flocculation and Coalescence Processes for Understanding the Role of Surfactants in EOR Performance

Expert System Knowledge Management for Laser Drilling in the Oil and Gas Industry

Variance of average stream compositions obtained by automatic incremental sampling

A Scaled Model Study of Waterjet Drilling

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