1,002 research outputs found
Energy spectra in turbulent bubbly flows
We conduct experiments in a turbulent bubbly flow to study the nature of the
transition between the classical 5/3 energy spectrum scaling for a
single-phase turbulent flow and the 3 scaling for a swarm of bubbles rising
in a quiescent liquid and of bubble-dominated turbulence. The bubblance
parameter, which measures the ratio of the bubble-induced kinetic energy to the
kinetic energy induced by the turbulent liquid fluctuations before bubble
injection, is often used to characterise the bubbly flow. We vary the bubblance
parameter from (pseudo-turbulence) to (single-phase flow)
over 2-3 orders of magnitude () to study its effect on the turbulent
energy spectrum and liquid velocity fluctuations. The probability density
functions (PDFs) of the liquid velocity fluctuations show deviations from the
Gaussian profile for , i.e. when bubbles are present in the system. The
PDFs are asymmetric with higher probability in the positive tails. The energy
spectra are found to follow the 3 scaling at length scales smaller than the
size of the bubbles for bubbly flows. This 3 spectrum scaling holds not only
in the well-established case of pseudo-turbulence, but surprisingly in all
cases where bubbles are present in the system (). Therefore, it is a
generic feature of turbulent bubbly flows, and the bubblance parameter is
probably not a suitable parameter to characterise the energy spectrum in bubbly
turbulent flows. The physical reason is that the energy input by the bubbles
passes over only to higher wave numbers, and the energy production due to the
bubbles can be directly balanced by the viscous dissipation in the bubble wakes
as suggested by Lance Bataille (1991). In addition, we provide an
alternative explanation by balancing the energy production of the bubbles with
viscous dissipation in the Fourier space.Comment: J. Fluid Mech. (in press
Three-dimensional Lagrangian Voronoi analysis for clustering of particles and bubbles in turbulence
Three-dimensional Voronoi analysis is used to quantify the clustering of
inertial particles in homogeneous isotropic turbulence using data from numerics
and experiments. We study the clustering behavior at different density ratios
and particle response times (i.e. Stokes numbers St). The Probability Density
Functions (PDFs) of the Voronoi cell volumes of light and heavy particles show
a different behavior from that of randomly distributed particles -i.e. fluid
tracers-implying that clustering is present. The standard deviation of the PDF
normalized by that of randomly distributed particles is used to quantify the
clustering. Light particles show maximum clustering for St around 1-2. The
results are consistent with previous investigations employing other approaches
to quantify the clustering. We also present the joint PDFs of enstrophy and
Voronoi volumes and their Lagrangian autocorrelations. The small Voronoi
volumes of light particles correspond to regions of higher enstrophy than those
of heavy particles, indicating that light particles cluster in higher vorticity
regions. The Lagrangian temporal autocorrelation function of Voronoi volumes
shows that the clustering of light particles lasts much longer than that of
heavy or neutrally buoyant particles. Due to inertial effects, the Lagrangian
autocorrelation time-scale of clustered light particles is even longer than
that of the enstrophy of the flow itself.Comment: J. Fluid Mech. 201
The clustering morphology of freely rising deformable bubbles
We investigate the clustering morphology of a swarm of freely rising
deformable bubbles. A three-dimensional Vorono\"i analysis enables us to
quantitatively distinguish between two typical clustering configurations:
preferential clustering and a grid-like structure. The bubble data is obtained
from direct numerical simulations (DNS) using the front-tracking method. It is
found that the bubble deformation, represented by the aspect ratio \chi, plays
a significant role in determining which type of clustering is realized: Nearly
spherical bubbles with \chi <~ 1.015 form a grid-like structure, while more
deformed bubbles show preferential clustering. Remarkably, this criteria for
the clustering morphology holds for different diameters of the bubbles, surface
tension, and viscosity of the liquid in the studied parameter regime. The
mechanism of this clustering behavior is connected to the amount of vorticity
generated at the bubble surfaces.Comment: 10 pages, 5 figure
Static strengthening and fatigue blunt-notch sensitivity in low-carbon steels
The influence of four different static strengthenings on the fatigue blunt-notch sensitivity of a low-carbon steel with a ferrite–pearlite microstructure was analyzed and modeled. The analysis was made using a model previously derived which estimates the fatigue limit of blunt notched components by means of the parameter ktd defined as the stress concentration introduced by the notch at a distance d from the notch root surface equal to the distance between microstructural barriers. While the distance d between microstructural barriers is kept constant by keeping constant the grain size, the effective resistance of the microstructural barriers to crack propagation is increased by static strengthening. The analyses have shown the influence of the distribution and effective resistance of the first two or three microstructural barriers on fatigue blunt-notch sensitivity.Fil: Chapetti, Mirco Daniel. Consejo Nacional de Investigaciones CientÃficas y Técnicas. Centro CientÃfico Tecnológico Conicet - Mar del Plata. Instituto de Investigaciones en Ciencia y TecnologÃa de Materiales. Universidad Nacional de Mar del Plata. Facultad de IngenierÃa. Instituto de Investigaciones en Ciencia y TecnologÃa de Materiales; ArgentinaFil: Katsura, N.. Nagoya University. Material Science and Engineering; JapónFil: Tagawa, T.. Nagoya University. Material Science and Engineering; JapónFil: Miyata, T.. Nagoya University. Material Science and Engineering; Japó
Diagnosis of infections in newborns using a new particle-mediated immunoassay for serum C-reactive protein
C-reactive protein (CRP) levels were measured using a new particle-mediated immunoassay. Tests for precision and linearity of this method gave satisfactory results. The minimum sensitivity of the assay was 1 ng/ml. Interference by bilirubin (<220mg/l) and haemoglobin (<20g/l) was not observed. Using this method,
CRP was assayed as a means of monitoring for infection in newborns up to 72 h after delivery. The pattern of time course elevation curves was similar for both groups (10 healthy subjects and 26 patients), but the serum CRP (ng/ml) of infected newborns rose significantly higher than in healthy subjects at 24 h after birth. The rate of increase of CRP (∆CRP; ng/ml/h) may be a more useful parameter to detect infection, since a significant change in ∆CRP was apparent only 12 h after birth. The reported method was reliable and the parameters obtained were considered clinically useful for early detection of infection
Lagrangian statistics of light particles in turbulence
We study the Lagrangian velocity and acceleration statistics of light
particles (micro-bubbles in water) in homogeneous isotropic turbulence.
Micro-bubbles with a diameter of 340 microns and Stokes number from 0.02 to
0.09 are dispersed in a turbulent water tunnel operated at Taylor-Reynolds
numbers (Re) ranging from 160 to 265. We reconstruct the bubble trajectories by
employing three-dimensional particle tracking velocimetry (PTV). It is found
that the probability density functions (PDFs) of the micro-bubble acceleration
show a highly non-Gaussian behavior with flatness values in the range 23-30.
The acceleration flatness values show an increasing trend with Re, consistent
with previous experiments (Voth et al., JFM, 2002) and numerics (Ishihara et
al., JFM, 2007). These acceleration PDFs show a higher intermittency compared
to tracers (Ayyalasomayajula et al., Phys. Fluids, 2008) and heavy particles
(Ayyalasomayajula et al., Phys. Rev. Lett., 2006) in wind tunnel experiments.
In addition, the micro-bubble acceleration autocorrelation function
decorrelates slower with increasing Re. We also compare our results with
experiments in von Karman flows and point-particle direct numerical simulations
with periodic boundary conditions.Comment: 13 pages, 9 figures, revised manuscrip
Synthetic DNA immunotherapy in biochemically relapsed prostate cancer
Background: INO-5150 (PSA and PSMA) +/- INO-9012 (IL-12), a synthetic DNA immunotherapy, was assessed for safety, immunogenicity and efficacy in biochemically recurrent prostate cancer patients (pts).
Methods: Phase I, open-label, multi-center study in the US included pts with rising PSA after surgery and/or RT, PSA doubling time (PSADT) \u3e3 months (mos), testosterone \u3e150 ng/dL and no concurrent ADT. Safety, immunogenicity and efficacy (PSA kinetics, PFS) were evaluated in 4 treatment arms of 15 pts each. Arms A: 2mg INO-5150, B: 8.5 mg INO-5150, C: 2mg INO-5150 + 1mg INO-9012 and D: 8.5mg INO-5150 + 1mg INO-9012. Pts received 4 IM doses of vaccine followed by electroporation on day 0, wks 3, 12 and 24 and were followed for 72 wks.
Results: 50/61 (82%) pts completed all visits and treatments were well tolerated with no safety concerns. Median PFS for overall population [N = 61, baseline (D0) PSADT range (mos) 1.5-217.1, median 9.8] and for a subset of pts with D0 PSADT ≤12mos (N = 36) has not yet been reached (FU 3-19 mos). 86% of pts with D0 PSADT ≤12 mos were progression free through 19mos FU. 27 out of 36 (75%) pts with D0 PSADT≤ 12 mos had disease stabilization at wks 27 evidenced by significant improvement in log2PSA change over time (slope) and PSADT from D0 (Slope=0.19 declined to 0.1, PSADT=5.3 improved to 10.1 mos, p = \u3c0.0001). This effect was maintained at wk 72 (Slope=0.09, PSADT=10.6, p = \u3c0.0001). Immunogenicity was observed in 77% (47/61) of pts by multiple immunologic assessments. Patient immunogenicity to INO-5150 as determined by CD38 and Perforin + CD8 T cell immune reactivity correlated with attenuated % PSA rise compared to pts without reactivity (p = 0.05, n = 50).
Conclusions: INO-5150 +/- INO-9012 was safe, well tolerated and immunogenic. Clinical efficacy was observed in the patients with D0 PSADT≤ 12 mos as evidenced by a significant dampening of log2PSA change over time and increased PSADT up to 72 weeks FU. Additional genomic analyses are ongoing to further elucidate the correlation of immunologic efficacy and clinical benefit. (NCT02514213)
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