S. Rovinetti scite author profile

The worldwide growing demand for energy drives oil and gas companies to drill deeper and hotter wells. The exploration and the development of Deeply Buried Reservoirs (DBR) generate major technical challenges due to the extremely high pressures and temperatures met (1 400 bar, 300°C). Currently, several drilling fluids are emerging. They are briefly reviewed at the beginning of the paper. The technical difficulty related to HP-HT mud is so significant that standard mud formulation technologies are irrelevant and alternative systems have to be considered. New formulations based on perfluorochemicals have been jointly developed by IFP Energies nouvelles (IFPEN), Solvay Specialty Polymers Italy and Total. Their lab characterizations are presented and reveal their promising benefits.

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Fluorous-Based Drilling Fluid for Ultra-High-Temperature Wells

Galindo

Deville

Espagne

et al. 2013

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International audienceThe growing industry demand to operate in high-pressure/high-temperature (HP/HT) environments (>10,000 psi and >350°F) requires robust drilling fluid performance to facilitate drilling under such harsh conditions. Several water-based and synthetic-based drilling fluids have met these high temperature operational challenges. However, despite the thermal stability of these fluid systems, deeper exploration has prompted the need for new technologies to drill in ultra-high-temperature reservoirs (>450°F). A fluorous-based drilling fluid can help meet these demands because fluorous materials are well-known to function in harsh chemical and thermal environments. Fluorous materials are composed of a carbon framework that is highly saturated with fluorine atoms. The increased electronegativity of fluorine relative to hydrogen provides fluorinated materials unique properties compared to their hydrocarbon counterparts. Fluorous fluids and additives exhibit thermal stabilities upward of 600°F. The properties of fluorinated materials could assist drilling operations by increasing thermal stability, improving lubricity, minimizing corrosion, stabilizing shale, and increasing contamination resistance. However, because of the water- and oil-repellant nature of fluorous materials, conventional drilling fluid additives do not perform. The high inherent density of fluorous liquids allows fluorous drilling fluid to be formulated at high densities (16.0 to 20.0 lb/gal). Only 7% by volume barite loading was necessary to achieve 16.0-lb/gal density with the fluorous fluid, compared to 27% by volume barite loading required to prepare a 16.0-lb/gal water-based mud. A fluorous surfactant provided emulsion stability, and the required concentration was optimized for the fluorous-based fluid. This paper presents the detailed laboratory study of a new fluorous-based drilling fluid that was formulated with 16.0-20.0 lb/gal densities, adequate suspension, and reasonable rheology with some degree of filtration control. Emulsion stability, rheological properties, suspension, and filtration control provided by the new drilling fluid system are also discussed. The fluorous-based drilling fluid potentially provides an ultra-high-temperature stable drilling fluid solution that can readily function in ultra-high-temperature wells

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The Control of Regio- and Chemo-Selectivity in the Gas-phase, Acid-Catalyzed Methylation of 1,2-Diphenol (Catechol)

Monti¹,

Cavani²,

Maselli³

et al. 2006

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The Control of Regio- and Chemo-Selectivity in the Gas-phase, Acid- Catalyzed Methylation of 1,2-Diphenol (Catechol)

Ardizzi¹,

Ballarini²,

Cavani³

et al. 2006

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S. Rovinetti

Mechanistic studies of the role of formaldehyde in the gas-phase methylation of phenol

HP-HT Drilling Mud Based on Environmently-Friendly Fluorinated Chemicals

Fluorous-Based Drilling Fluid for Ultra-High-Temperature Wells

The Control of Regio- and Chemo-Selectivity in the Gas-phase, Acid-Catalyzed Methylation of 1,2-Diphenol (Catechol)

The Control of Regio- and Chemo-Selectivity in the Gas-phase, Acid- Catalyzed Methylation of 1,2-Diphenol (Catechol)

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