4,949 research outputs found
Experimental investigation of transitional flow in a toroidal pipe
The flow instability and further transition to turbulence in a toroidal pipe
(torus) with curvature (tube-to-coiling diameter) 0.049 is investigated
experimentally. The flow inside the toroidal pipe is driven by a steel sphere
fitted to the inner pipe diameter. The sphere is moved with constant azimuthal
velocity from outside the torus by a moving magnet. The experiment is designed
to investigate curved pipe flow by optical measurement techniques. Using
stereoscopic particle image velocimetry, laser Doppler velocimetry and pressure
drop measurements, the flow is measured for Reynolds numbers ranging from 1000
to 15000. Time- and space-resolved velocity fields are obtained and analysed.
The steady axisymmetric basic flow is strongly influenced by centrifugal
effects. On an increase of the Reynolds number we find a sequence of
bifurcations. For Re=4075 a supercritical bifurcation to an oscillatory flow is
found in which waves travel in the streamwise direction with a phase velocity
slightly faster than the mean flow. The oscillatory flow is superseded by a
presumably quasi-periodic flow at a further increase of the Reynolds number
before turbulence sets in. The results are found to be compatible, in general,
with earlier experimental and numerical investigations on transition to
turbulence in helical and curved pipes. However, important aspects of the
bifurcation scenario differ considerably
How can aerosols affect the Asian summer monsoon? Assessment during three consecutive pre-monsoon seasons from CALIPSO satellite data
The impact of aerosols above and around the Tibetan Plateau on the Asian Summer Monsoon during pre-monsoon seasons March-April-May 2007, 2008, and 2009 is investigated by means of remote sensing and radiative transfer modelling. Four source regions are found to be responsible for the high aerosol loading around the Tibetan Plateau: the Taklamakan Desert, the Ganges Plains, the Indus Plains, and the Arabian Sea. CALIPSO lidar satellite data, providing vertically resolved images of aerosols, shows aerosol concentrations to be highest in the lower 5 km of the atmosphere with only little amounts reaching the Tibetan Plateau altitude. Using a radiative transfer model we find that aerosol plumes reduce shortwave radiation throughout the Monsoon region in the seasonal average by between 20 and 30 W/m<sup>2</sup>. Peak shortwave heating in the lower troposphere reaches 0.2 K/day. In higher layers this shortwave heating is partly balanced by longwave cooling. Although high-albedo surfaces, such as deserts or the Tibetan Plateau, increase the shortwave heating by around 10%, the overall effect is strongest close to the aerosol sources. A strong elevated heating which could influence large-scale monsoonal circulations as suggested by previous studies is not found
Subcritical versus supercritical transition to turbulence in curved pipes
Transition to turbulence in straight pipes occurs in spite of the linear
stability of the laminar Hagen--Poiseuille flow if the amplitude of flow
perturbations as well as the Reynolds number exceed a minimum threshold
(subcritical transition). As the pipe curvature increases centrifugal effects
become important, modifying the basic flow as well as the most unstable linear
modes. If the curvature (tube-to-coiling diameter ) is sufficiently large
a Hopf bifurcation (supercritical instability) is encountered before turbulence
can be excited (subcritical instability). We trace the instability thresholds
in the parameter space in the range by means
of laser-Doppler velocimetry and determine the point where the subcritical and
supercritical instabilities meet. Two different experimental setups were used:
a closed system where the pipe forms an axisymmetric torus and an open system
employing a helical pipe. Implications for the measurement of friction factors
in curved pipes are discussed
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Mechanistic Insights into Diverse Protease Adaptor Functions
Protein degradation is an essential cellular process that helps maintain proper homeostasis. The ClpXP protease broadly regulates bacterial development and quality control during the cell cycle. The range and order of substrates that ClpXP degrades during the cell cycle is dictated by 3 accessory proteins, which are known as adaptors. This thesis will elaborate on how dimerization tightly regulates the stability and activity of the adaptor protein at the center of this hierarchy, RcdA, and show how this affects normal cellular processes in Caulobacter crescentus. I will discuss the mechanism by which dimerization limits RcdA activity and how the dimerization interface contains selective regions that differentiate which substrates can engage with RcdA. Lastly, I will discuss how RcdA and the master regulator of Caulobacter, CtrA, interacts with the third adaptor in the hierarchy, PopA and the various surfaces on the PopA adaptor that are involved in each interaction. The remainder of the thesis will present data that arises from these projects
Large-x Parton Distributions
Reliable knowledge of parton distributions at large x is crucial for many
searches for new physics signals in the next generation of collider
experiments. Although these are generally well determined in the small and
medium x range, it has been shown that their uncertainty grows rapidly for
x>0.1. We examine the status of the gluon and quark distributions in light of
new questions that have been raised in the past two years about "large-x"
parton distributions, as well as recent measurements which have improved the
parton uncertainties. Finally, we provide a status report of the data used in
the global analysis, and note some of the open issues where future experiments,
including those planned for Jefferson Labs, might contribute.Comment: LaTeX, 9 pages, 7 figures. Invited talk presented at the ``Workshop
on Nucleon Structure in the High x-Bjorken Region (HiX2000),'' Temple
University, Philadelphia, Pennsylvania, March 30-April 1, 200
Valuation theory, generalized IFS attractors and fractals
Using valuation rings and valued fields as examples, we discuss in which ways the notions of “topological IFS attractor” and “fractal space” can be generalized to cover more general settings
Prediction of service life of polymeric sealant compositions for fuel tanks in aerospace structures from measurements of viscoelastic properties Annual report
Prediction of service life of polymeric sealers for fuel tanks from viscoelastic measurement
Reconciling credibility and accountability: how expert bodies achieve credibility through accountability processes
Arguments about the legitimate role of expert bodies in Europe often centre on the following question: Does their independence help to make policies credible or should they be made democratically accountable to principals and stakeholders? This article claims this is a false dichotomy. It does so by arguing theoretically that credibility can be achieved through accountability processes. Then, drawing on exemplary case studies, this article identifies distinctive accountability processes for ensuring credibility: revisable competencies, deliberation over institutional design, and engagement in public justification. Credibility and accountability are thus not conflicting, but co-constitutive aims of delegation to expert bodies. The analysis provides European policy makers and others with a guide for thinking beyond the contrast between ‘democratic accountability’ and ‘independent credibility’
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