307 research outputs found
Pumps as turbines for efficient energy recovery in water supply networks
The present work aims to enhance the energy efficiency of water supply networks by investigating technical and economical feasibility of energy recovery plants at low installed capacities. A cost effective stainless steel machine is investigated in pump and turbine operation and established conversion methods are used for predicting the best efficiency point of the turbine. The obtained results show a reasonable agreement of the BEP, but experimental investigations are still indispensable for a determination of complete Q-H-characteristics. The hydraulic machine is implemented in field at the transfer shaft of a high-level tank and valuable data concerning investment costs and water hammer have been collected. A proposed cost classification scheme will facilitate the acquisition of investment costs for further applications. The economic profitability of the hydropower plant is evaluated by the net present value method and the obtained results give incentives to exploit unused energy recovery potential within water supply systems
GRAVITY: the Calibration Unit
We present in this paper the design and characterisation of a new sub-system
of the VLTI 2nd generation instrument GRAVITY: the Calibration Unit. The
Calibration Unit provides all functions to test and calibrate the beam combiner
instrument: it creates two artificial stars on four beams, and dispose of four
delay lines with an internal metrology. It also includes artificial stars for
the tip-tilt and pupil guiding systems, as well as four metrology pick-up
diodes, for tests and calibration of the corresponding sub-systems. The
calibration unit also hosts the reference targets to align GRAVITY to the VLTI,
and the safety shutters to avoid the metrology light to propagate in the
VLTI-lab. We present the results of the characterisation and validtion of these
differrent sub-units.Comment: 12 pages, 11 figures. Proceeding of SPIE 9146 "Optical and Infrared
Interferometry IV
The GRAVITY metrology system: modeling a metrology in optical fibers
GRAVITY is the second generation VLT Interferometer (VLTI) instrument for
high-precision narrow-angle astrometry and phase-referenced interferometric
imaging. The laser metrology system of GRAVITY is at the heart of its
astrometric mode, which must measure the distance of 2 stars with a precision
of 10 micro-arcseconds. This means the metrology has to measure the optical
path difference between the two beam combiners of GRAVITY to a level of 5 nm.
The metrology design presents some non-common paths that have consequently to
be stable at a level of 1 nm. Otherwise they would impact the performance of
GRAVITY. The various tests we made in the past on the prototype give us hints
on the components responsible for this error, and on their respective
contribution to the total error. It is however difficult to assess their exact
origin from only OPD measurements, and therefore, to propose a solution to this
problem. In this paper, we present the results of a semi-empirical modeling of
the fibered metrology system, relying on theoretical basis, as well as on
characterisations of key components. The modeling of the metrology system
regarding various effects, e.g., temperature, waveguide heating or mechanical
stress, will help us to understand how the metrology behave. The goals of this
modeling are to 1) model the test set-ups and reproduce the measurements (as a
validation of the modeling), 2) determine the origin of the non-common path
errors, and 3) propose modifications to the current metrology design to reach
the required 1nm stability.Comment: 20 pages, 19 figures. Proceeding of SPIE 9146 "Optical and Infrared
Interferometry IV
GRAVITY: metrology
GRAVITY is a second generation VLTI instrument, combining the light of four
telescopes and two objects simultaneously. The main goal is to obtain
astrometrically accurate information. Besides correctly measured stellar phases
this requires the knowledge of the instrumental differential phase, which has
to be measured optically during the astronomical observations. This is the
purpose of a dedicated metrology system. The GRAVITY metrology covers the full
optical path, from the beam combiners up to the reference points in the beam of
the primary telescope mirror, minimizing the systematic uncertainties and
providing a proper baseline in astrometric terms. Two laser beams with a fixed
phase relation travel backward the whole optical chain, creating a fringe
pattern in any plane close to a pupil. By temporal encoding the phase
information can be extracted at any point by means of flux measurements with
photo diodes. The reference points chosen sample the pupil at typical radii,
eliminating potential systematics due differential focus. We present the final
design and the performance estimate, which is in accordance with the overall
requirements for GRAVITY.Comment: Proceedings of SPIE, Vol. 8445, Paper No. 8445-58, 201
Mechanical activation of vinculin binding to talin locks talin in an unfolded conformation
The force-dependent interaction between talin and vinculin plays a crucial role in the initiation and growth of focal adhesions. Here we use magnetic tweezers to characterise the mechano-sensitive compact N-terminal region of the talin rod, and show that the three helical bundles R1-R3 in this region unfold in three distinct steps consistent with the domains unfolding independently. Mechanical stretching of talin R1-R3 enhances its binding to vinculin and vinculin binding inhibits talin refolding after force is released. Mutations that stabilize R3 identify it as the initial mechano-sensing domain in talin, unfolding at ~5 pN, suggesting that 5 pN is the force threshold for vinculin binding and adhesion progression
A search for broad infrared recombination lines in NGC 1068
We report infrared spectroscopy of the prototypical Seyfert 2 galaxy NGC
1068, aiming at detection of broad components of hydrogen recombination lines
that originate in the obscured broad-line region. Using the Short Wavelength
Spectrometer on board the Infrared Space Observatory, we have observed for the
first time the regions of Brackett beta 2.626um and Pfund alpha 7.460um, and
present improved data for Brackett alpha 4.052um. No significant broad
components are detected, implying an equivalent visual extinction to the
broad-line region of at least 50 magnitudes and an obscuring column density of
at least 10^23 cm^-2. While consistent with a highly obscured broad-line
region, as required by the classical unified scenario, these limits are not yet
significant enough to discriminate strongly between different torus models or
to constrain properties of the gas causing the very large X-ray obscuration. We
discuss the systematic limitations of infrared broad-line region searches and
suggest that Brackett alpha may often be the most favorable transition for
future searches.Comment: aastex (V4), 4 eps figures. Accepted by Ap
The GRAVITY instrument software / High-level software
GRAVITY is the four-beam, near- infrared, AO-assisted, fringe tracking,
astrometric and imaging instrument for the Very Large Telescope Interferometer
(VLTI). It is requiring the development of one of the most complex instrument
software systems ever built for an ESO instrument. Apart from its many
interfaces and interdependencies, one of the most challenging aspects is the
overall performance and stability of this complex system. The three infrared
detectors and the fast reflective memory network (RMN) recorder contribute a
total data rate of up to 20 MiB/s accumulating to a maximum of 250 GiB of data
per night. The detectors, the two instrument Local Control Units (LCUs) as well
as the five LCUs running applications under TAC (Tools for Advanced Control)
architecture, are interconnected with fast Ethernet, RMN fibers and dedicated
fiber connections as well as signals for the time synchronization. Here we give
a simplified overview of all subsystems of GRAVITY and their interfaces and
discuss two examples of high-level applications during observations: the
acquisition procedure and the gathering and merging of data to the final FITS
file.Comment: 8 pages, 7 figures, published in Proc. SPIE 9146, Optical and
Infrared Interferometry IV, 91462
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