481 research outputs found
Statistics of fully turbulent impinging jets
Direct numerical simulations of sub- and supersonic impinging jets with
Reynolds numbers of 3300 and 8000 are carried out to analyse their statistical
properties. The influence of the parameters Mach number, Reynolds number and
ambient temperature on the mean velocity and temperature fields are studied.
For the compressible subsonic cold impinging jets into a heated environment,
different Reynolds analogies are assesses. It is shown, that the (original)
Reynolds analogy as well as the Chilton Colburn analogy are in good agreement
with the DNS data outside the impinging area. The generalised Reynolds analogy
(GRA) and the Crocco-Busemann relation are not suited for the estimation of the
mean temperature field based on the mean velocity field of impinging jets.
Furthermore, the prediction of fluctuating temperatures according to the GRA
fails. On the contrary, the linear relation between thermodynamic fluctuations
of entropy, density and temperature as suggested by Lechner et al. (2001) can
be confirmed for the entire wall jet. The turbulent heat flux and Reynolds
stress tensor are analysed and brought into coherence with the primary and
secondary ring vortices of the wall jet. Budget terms of the Reynolds stress
tensor are given as data base for the improvement of turbulence models
Tradeoff between short-term and long-term adaptation in a changing environment
We investigate the competition dynamics of two microbial or viral strains
that live in an environment that switches periodically between two states. One
of the strains is adapted to the long-term environment, but pays a short-term
cost, while the other is adapted to the short-term environment and pays a cost
in the long term. We explore the tradeoff between these alternative strategies
in extensive numerical simulations, and present a simple analytic model that
can predict the outcome of these competitions as a function of the mutation
rate and the time scale of the environmental changes. Our model is relevant for
arboviruses, which alternate between different host species on a regular basis.Comment: 9 pages, 3 figures, PRE in pres
Low-level HIV-1 replication and the dynamics of the resting CD4+ T cell reservoir for HIV-1 in the setting of HAART
<p>Abstract</p> <p>Background</p> <p>In the setting of highly active antiretroviral therapy (HAART), plasma levels of human immunodeficiency type-1 (HIV-1) rapidly decay to below the limit of detection of standard clinical assays. However, reactivation of remaining latently infected memory CD4<sup>+ </sup>T cells is a source of continued virus production, forcing patients to remain on HAART despite clinically undetectable viral loads. Unfortunately, the latent reservoir decays slowly, with a half-life of up to 44 months, making it the major known obstacle to the eradication of HIV-1 infection. However, the mechanism underlying the long half-life of the latent reservoir is unknown. The most likely potential mechanisms are low-level viral replication and the intrinsic stability of latently infected cells.</p> <p>Methods</p> <p>Here we use a mathematical model of T cell dynamics in the setting of HIV-1 infection to probe the decay characteristics of the latent reservoir upon initiation of HAART. We compare the behavior of this model to patient derived data in order to gain insight into the role of low-level viral replication in the setting of HAART.</p> <p>Results</p> <p>By comparing the behavior of our model to patient derived data, we find that the viral dynamics observed in patients on HAART could be consistent with low-level viral replication but that this replication would not significantly affect the decay rate of the latent reservoir. Rather than low-level replication, the intrinsic stability of latently infected cells and the rate at which they are reactivated primarily determine the observed reservoir decay rate according to the predictions of our model.</p> <p>Conclusion</p> <p>The intrinsic stability of the latent reservoir has important implications for efforts to eradicate HIV-1 infection and suggests that intensified HAART would not accelerate the decay of the latent reservoir.</p
The Golden Egg: An Austere Field Light Attack Aircraft Team Angry Geese
In response to the 2021 AIAA Undergraduate Team Aircraft Design Competition request for proposals, Team Angry Geese of the University of Alabama in Huntsville has developed a conceptual design, the “Golden Egg”, an affordable light attack aircraft that can operate from short, austere fields and replace current helicopters in performing close air support missions. The aircraft must carry a crew of two, an integrated gun for ground targets, and at least 3000 pounds of armament. The aircraft must accomplish an attack mission with a full weapons load and a long-range ferry mission with a 60% weapons load. Additional design goals include enhanced survivability, the capability to deploy a variety of missiles, rockets, and bombs, and producing a “best-value” design that considers acquisition and operational costs. The baseline concept was developed after reviewing the design and performance of similar attack aircraft and helicopters. The current design has a streamlined body with an aspect ratio 6 tapered wing, a H-tail, and tricycle landing gear. An integrated F-404 turbofan engine allows the aircraft to meet flight requirements especially with its intake uniquely placed on top of the fuselage to mitigate potential debris hazards. The armament includes an integrated 20 mm gun and a combination of missiles and guided bombs. This initial design is estimated to weigh just under 24,407 lbf. Strategic material selection is currently being performed to reduce weight with structural strength, cost, and survivability in mind
Early Visual Symptom Patterns in Inherited Retinal Dystrophies
The present retrospective study compared initial visual symptom patterns in inherited retinal dystrophies (IRD) on the basis of records of 544 patients diagnosed with a wide variety of IRD at the Tuebingen University Eye Hospital from 2005 to 2008. Age at first onset of symptoms was noted, and the following clinical data were analyzed: visual acuity (VA), night vision disturbances, photophobia, onset of visual field defects, best corrected VA, and types of visual field defects. Median age at visual symptom onset was defined with 25th and 75th percentiles and compared in 15 IRD types. The main trends in VA changes in retinitis pigmentosa and cone-rod dystrophies were identified. This study was the first to combine disease history and clinical data analysis in such a wide variety of IRD. It showed that patterns of initial symptoms in IRD can provide extra clues for early differential diagnosis and inclusion of IRD patients in clinical trials
Limits on Replenishment of the Resting CD4+ T Cell Reservoir for HIV in Patients on HAART
Whereas cells productively infected with human immunodeficiency virus type 1 (HIV-1) decay rapidly in the setting of highly active antiretroviral therapy (HAART), latently infected resting CD4+ T cells decay very slowly, persisting for the lifetime of the patient and thus forming a stable reservoir for HIV-1. It has been suggested that the stability of the latent reservoir is due to low-level viral replication that continuously replenishes the reservoir despite HAART. Here, we offer the first quantitative study to our knowledge of inflow of newly infected cells into the latent reservoir due to viral replication in the setting of HAART. We make use of a previous observation that in some patients on HAART, the residual viremia is dominated by a predominant plasma clone (PPC) of HIV-1 not found in the latent reservoir. The unique sequence of the PPC serves as a functional label for new entries into the reservoir. We employ a simple mathematical model for the dynamics of the latent reservoir to constrain the inflow rate to between 0 and as few as 70 cells per day. The magnitude of the maximum daily inflow rate is small compared to the size of the latent reservoir, and therefore any inflow that occurs in patients on HAART is unlikely to significantly influence the decay rate of the reservoir. These results suggest that the stability of the latent reservoir is unlikely to arise from ongoing replication during HAART. Thus, intensification of standard HAART regimens should have minimal effects on the decay of the latent reservoir
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