An optical moon baffle for stray light attenuation was developed for use on ExoplanetSat, a 3U CubeSat being developed jointly by MIT and Draper Laboratory which aims to detect transiting exoplanets via precision photometry. This paper will discuss the optical and mechanical design of the baffle, as well as the optical performance as demonstrated through the test of a prototype. The baffle collapses to fit into a small volume around ExoplanetSat's lens and deploys on orbit to a full length of 12 cm. The baffle is capable of attenuating moonlight by a factor of 10 5 at a lunar exclusion angle of 30 degrees.
Chemical
enhanced oil recovery aims to increase the oil recovery
of mature oil fields. The interfacial tensions (IFTs) between the
aqueous solution, the oil phase, and other possible phases are important
for designing and estimating a chemical formulation effectiveness.
Ultralow (<10–2 mN·m–1) IFTs are needed to increase the capillary number and help mobilize
trapped oil droplets. Five types of equilibrium IFTs (EIFTs) have
been defined as follows: (I) the un-pre-equilibrated equilibrium IFT;
(II) the un-pre-equilibrated EIFTs in the presence of rock; (III)
the pre-equilibrated EIFTs in the presence of oil; (IV) the pre-equilibrated
EIFT in the presence of rock and oil; and (V) the effluent EIFT. Among
the five types of EIFTs, the fourth and fifth were found to be the
most important for the highest oil recovery performance in core flood
tests, because they capture the effects of surfactant partitioning
into the oil phase and the adsorption losses on the rock surface.
For three surfactant formulations tested with Berea core flood experiments,
the one with the lowest type-IV EIFT (∼0.01 mN·m–1) had the highest oil recovery ratio (78%), and the one with the
highest type IV EIFT (∼0.2 mN·m–1) had
the lowest oil recovery ratio (55%). The other EIFTs correlated less
well with the oil recovery performance. Identifying surfactant formulations
that have low or ultralow EIFTs, especially of type IV or V, is critical
for screening formulations appropriate for core flood tests and target
field applications, and for predicting the oil recovery performance.
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