Yurko Duda scite author profile

Applying chemical additives (molecule inhibitors or dispersants) is one of the common ways to control asphaltene agglomeration and precipitation. However, it is not clear why at some conditions the synthetic flocculation inhibitors as well as resins not only do not inhibit the asphaltene agglomeration,, they may also promote it, and why the increasing of the additive concentration may lead to the diminishing of their efficacy. To clarify this issue, in the present work we have performed a set of vapor preassure osmometry experiments investigating the asphaltene agglomeration inhibition by commercial and new inhibitor molecules in toluene and o-diclorobenzene. Monte Carlo computer modeling has been applied to interpret some unexpected trends of molar mass of the Puerto Ceiba asphaltene clusters at different concentrations of inhibitor, assuming that inhibitors efficiency is directly related to their adsorption on the surface of asphaltene or its complexes. It has been found that a self-assembly of inhibitor molecules, induced by relative lyophilic or lyophobic interactions, may be a reason of the inhibitor efficacy declining.

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Phase diagram and surface tension of the hard-core attractive Yukawa model of variable range: Monte Carlo simulations

Duda

Romero‐Martínez

Orea

2007

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Surface tension of a square well fluid

Orea

Duda

Alejandre

2003

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We performed Monte Carlo simulations in the canonical ensemble on the liquid–vapor interface of a square well fluid with interaction range of λ=1.5σ. The system contains a liquid slab surrounded by vapor. The surface tension is calculated during simulations by using an original procedure that allows the calculation of the pressure tensor components. The surface tension decreases monotonically with temperature. Coexisting densities and pressure along the liquid–vapor coexistence line have also been obtained and good agreement is found with results calculated from bulk simulations.

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Yurko Duda

Integral equation theory for the four bonding sites model of associating fluids I. Structure factor and compressibility

Study of Medium Effect on Asphaltene Agglomeration Inhibitor Efficiency

Phase diagram and surface tension of the hard-core attractive Yukawa model of variable range: Monte Carlo simulations

Surface tension of a square well fluid

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