9 research outputs found
Legislative Documents
Also, variously referred to as: Senate bills; Senate documents; Senate legislative documents; legislative documents; and General Court documents
Descriptive statistics for the clusters composed of at least ten cells.
<p>Descriptive statistics for the clusters composed of at least ten cells.</p
Kendall rank correlation coefficient between the independent variables for the clusters with at least ten cells observed in 2005.
<p>Kendall rank correlation coefficient between the independent variables for the clusters with at least ten cells observed in 2005.</p
Distributions of the independent variables.
<p><b>(a)</b><i>Area</i>. <b>(b)</b> log(<i>Area</i>). <b>(c)</b> <i>Density</i>. <b>(d)</b> log(<i>Density</i>). <b>(e)</b> <i>Roundness</i>. <b>(f)</b> <i>Irregularity</i>. <b>(g)</b> <i>Characteristic length</i> (<i>CL</i>). <b>(h)</b> <i>Heterogeneity</i>. <b>(i)</b> <i>Gender</i>. <b>(j)</b> <i>Age</i>. <b>(k)</b> <i>Tertiary</i>. The clusters whose <i>Area</i> was less than 10 were omitted from the calculation of the distributions. Some of the distributions are truncated for a visibility reason. The curve shown in each panel represents the normal distribution with the sample mean and standard deviation.</p
Three clusters, each composed of four cells (i.e., <i>S</i> = 4) and eight inhabitants.
<p>The number of inhabitants in each cell is indicated.</p
ESM for Violence in Japanese prehistory
Definition of and sources of data for injured individuals in the Jomon period, and detailed information of all sites where skeletal remains have been recovered
Electronic supplementary material from Correction to: ‘Violence in the prehistoric period of Japan: the spatio-temporal pattern of skeletal evidence for violence in the Jomon period’
Electronic supplementary materia
Phase Behavior of Methane/<i>n</i>‑Butane Binary Mixtures in Organic Nanopores under Bulk Vapor Conditions
Nanopores
can change the phase boundary of fluid mixtures. A recent
study has reported that the bubble-point pressure of binary mixtures
in nanopores can be merged with the dew point, showing there is no
phase coexistence region but a line. On the other hand, previous molecular-scale
simulations showed the existence of a phase envelope. In experiments,
it is difficult to determine the composition of a mixture in nanopores.
In this study, we investigated the selectivity and phase behavior
of CH4/n-C4H10 binary
mixtures in 10, 5, and 2 nm graphite nanopores under bulk vapor conditions
by grand canonical Monte Carlo molecular simulations. The selectivity
was high at low pressures, and the selectivity isotherms can be classified
as classes I–III. We observed the nanopore-induced capillary
condensation. When we used the bulk mole fractions to prepare the
phase diagram, the dew- and bubble-point pressures were almost the
same. Both were below the dew-point line of the corresponding bulk
mixture. This is in good agreement with recent experiments. We observed
a narrower phase envelope when we used the mole fractions of the mixture
in nanopores. In general, the bubble-point pressure decreased compared
with that of the bulk system, whereas the corresponding dew-point
pressure increased. Furthermore, the critical pressure decreased with
decreasing pore size and the supercritical region expanded accordingly.
The interplay between the fluids in nanopores and bulk can yield various
phase diagrams, providing us with a unified picture of the phase behavior
in nanopores. The simulation results comprehensively describe the
phase behavior of hydrocarbon mixtures in organic nanopores for shale
gas and shale oil development