Time-resolved small angle neutron scattering measurements of asphaltene nanoparticle aggregation kinetics in incompatible crude oil mixtures
نویسندگان
چکیده
We use time-resolved-small angle neutron scattering to study the kinetics of asphaltene nanoparticle aggregation in incompatible crude oil mixtures. We induce asphaltene aggregation by mixing asphaltene-rich Syrian crude oil ~SACO! with a paraffinic British crude oil and observe the scattered neutron intensity, I, as a function of wave number, q, over times, t, ranging from twenty minutes to about a week. We observe a growth in I at low q as the nanoscale asphaltenes agglomerate into microscale aggregates and interpret this growth as an increase in surface scattering from the aggregates. We fit I(q ,t) to an empirical model and measure the growth in the power-law exponent, a, associated with the low-q logarithmic slope of I(q). We define a time, ta , associated with the first appearance of the aggregates when a.3; ta increases as a function of the volume fraction, fm , of SACO in the mixture. The surface scattering intensity initially increases and then saturates at long times when the aggregate structures no longer evolve at the length scales we probe. Based on this saturation, we define a time scale, t I , which is larger than ta but has essentially the same dependence on fm . We interpret ta(fm) and t I(fm) in terms of a simple aggregation model based on diffusion-limited kinetics and a repulsive potential barrier that models the effective solvent quality. © 2003 American Institute of Physics. @DOI: 10.1063/1.1572457#
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