1,498 research outputs found
Modeling of water balance response to an extreme future scenario in the Ă–tztal catchment, Austria
The aim of the study was to investigate the impact of climate change on the
water balance of the Ă–tztaler Ache catchment in Tyrol, Austria. For this
purpose the conceptual hydrological model HBV-D REG was applied. First, the
model was calibrated and validated using current observed climate and
discharge data. Second, the calibrated model was applied with reanalysis
data. Third, downscaled climate scenarios from 2010 to 2099 served as input
data to the HBV-D REG. Thereby two extreme land cover scenarios were
considered: for water balance modeling a constant glacier coverage from today
and additionally for runoff simulations a complete loss of glaciered area.
The downscaled climate data were generated with the expanded downscaling
method. Scenario simulations indicated an increase in annual areal
temperature by 3.4 °C and a slight decrease in annual areal
precipitation by 89 mm in the next one hundred years. According to the hydrological
modeling, these climate changes caused an increase in evapotranspiration and
a decrease in snow coverage. Furthermore model simulations showed an increase
in winter and spring runoff, whereas summer runoff was highly sensitive to
glacier coverage and decreased with complete loss of glacier coverage
Pile Design Procedure for Stabilizing Channel Slopes
A case history is presented for slope stabilization of channels using piles. The Kansas City District, Corps of Engineers has used various pile designs and types of piles for projects along the Blue River Channel in Kansas City Missouri to stabilize sections of unstable channel slopes in previous slide areas, since June of 1986. Low existing soil shear strengths and limited rights-of-way precluded use of more conventional stabilizing methods. Although a pile analysis method had been used for initial projects, with several piles instrumented with slope indicator devices, an improved analysis method was needed. In July of 1994, through a design analysis, the Kansas City District, Corps of Engineers developed a pile design procedure for the stabilization of a failed slope, along the Blue River Channel, known as the Gregory Blvd Project. The method utilizes both Limit Equilibrium slope stability methods and P-Y curve methods for pile analysis, and takes into account earth pressure theory. The method includes a trial and error procedure for determining the driving forces from a sliding mass of soil. The driving forces were then calculated at a concentrated point on the slide plane, coincident with the location of the piles, or where the piles intersect the slide surface, using limit equilibrium procedures with the most critical slide surface and at the desired factor of safety for the stabilized slope. For projects discussed, shear strengths, were determined from a back analysis of the existing slopes at failure using F=1.0. Laboratory test results generally did not yield usable values. The slope stability computer programs UTEXAS2 and UTEXAS3, using Spencer\u27s Procedure was used in all analyses. The driving forces, thus determined, are then input into the pile analysis (LPILE) program, using both a triangular and a uniform load distribution along with the appropriate soil strength parameters for generating the P-Y curves within the program. Depth of pile embedment below the slip surface, size of the piles, position of the piles in the slope and the required spacing are then determined. Actual instrumented field data located on piles are presented as well as comparisons with predicted results, using the pile procedure analysis technique. The case studies demonstrate the importance of proper formulation of the analysis and of modeling the soil using the correct P-Y soil parameters for the pile
Information Research
Introduction. This study explored how various meanings are attributed to the term facts in Swedish schools and how this may shape conditions for students' learning. The understanding of information activities as social, communicative, and discursive, which motivates the study, is informed by a sociocultural perspective of learning and information interaction. Method. The study re-analyses empirical data from four previous research projects, where material was collected through various qualitative methods, mainly interviews, observations, and document analysis. The material involved 14 classes from year 2 to year 12.Analysis. The data were analysed thematically. In the material, 565 occurrences of facts are identified and categorised. Results. The analysis generated three themes. Firstly, facts were associated with specific genres or modalities. Secondly, facts were seen as distinguishable, external, and tangible. Thirdly, facts came across as having strong connections to neutrality and they were viewed as evidence. Conclusions. The analysis showed variation in how the study participants talked about facts. Despite the dominant associations, each theme displayed more complex meanings of the term, which indicates that fact cannot be equated to how the term has been used as an analytical term in previous research. The frequent use of the term facts can be understood as a result of the strong focus on students seeking and using certain types of information for writing school reports. The results show how important it is that information researchers adopt an open and explorative approach to the meaning of the language used in school activities that they study
The Development and Study of High-Position Resolution (50 micron) RPCs for Imaging X-rays and UV photons
Nowadays, commonly used Resistive Plate Chambers (RPCs) have counting rate
capabilities of ~10E4Hz/cm2 and position resolutions of ~1cm. We have developed
small prototypes of RPCs (5x5 and 10x10cm2) having rate capabilities of up to
10E7Hz/cm2 and position resolutions of 50 micron("on line" without application
of any treatment method like "center of gravity"). The breakthrough in
achieving extraordinary rate and position resolutions was only possible after
solving several serious problems: RPC cleaning and assembling technology,
aging, spurious pulses and afterpulses, discharges in the amplification gap and
along the spacers. High-rate, high-position resolution RPCs can find a wide
range of applications in many different fields, for example in medical imaging.
RPCs with the cathodes coated by CsI photosensitive layer can detect
ultraviolet photons with a position resolution that is better than ~30 micron.
Such detectors can also be used in many applications, for example in the focal
plane of high resolution vacuum spectrographs or as image scanners.Comment: 6 pages, 5 figures, other comment
The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures
We have demonstrated that hole-type gaseous detectors, GEMs and capillary
plates, can operate up to 77 K. For example, a single capillary plate can
operate at gains of above 10E3 in the entire temperature interval between 300
until 77 K. The same capillary plate combined with CsI photocathodes could
operate perfectly well at gains (depending on gas mixtures) of 100-1000.
Obtained results may open new fields of applications for capillary plates as
detectors of UV light and charge particles at cryogenic temperatures: noble
liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic
PETs.Comment: Presented at the IEEE Nuclear Science Symposium, Roma, 200
Clustering of Intermediate Luminosity X-ray selected AGN at z~3
We present the first clustering results of X-ray selected AGN at z~3. Using
Chandra X-ray imaging and UVR optical colors from MUSYC photometry in the
ECDF-S field, we selected a sample of 58 z~3 AGN candidates. From the optical
data we also selected 1385 LBG at 2.8<z< 3.8 with R<25.5. We performed
auto-correlation and cross-correlation analyses, and here we present results
for the clustering amplitudes and dark matter halo masses of each sample. For
the LBG we find a correlation length of r_0,LBG = 6.7 +/- 0.5 Mpc, implying a
bias value of 3.5 +/- 0.3 and dark matter (DM) halo masses of log(Mmin/Msun) =
11.8 +/- 0.1. The AGN-LBG cross-correlation yields r_0,AGN-LBG = 8.7 +/- 1.9
Mpc, implying for AGN at 2.8<z<3.8 a bias value of 5.5 +/- 2.0 and DM halo
masses of log(Mmin/Msun) = 12.6 +0.5/-0.8. Evolution of dark matter halos in
the Lambda CDM cosmology implies that today these z~3 AGN are found in high
mass galaxies with a typical luminosity of 7+4/-2 L*.Comment: Accepted for publication in ApJ Letters. 4 pages, 4 figures (1 in
color
Study of capillary-based gaseous detectors
We have studied gain vs. voltage characteristics and position resolutions of
multistep capillary plates (two or three capillary plates operating in a
cascade), as well as capillary plates operating in a mode when the main
amplification occurs between plates or between the capillary plate and the
readout plate (parallel plate amplification mode). Results of these studies
demonstrated that in the parallel-plate amplification mode one can reach both
high gains (>100000) and good position resolutions (~100 micro meter) even with
a single step arrangement. It offers a compact amplification structure, which
can be used in many applications. For example, in preliminary tests we
succeeded to combine it with a photocathode and use it as a position sensitive
gaseous photomultiplier. CsI coated capillary plates could also be used as a
high position resolution and high rate X-ray converter.Comment: Presented at the NSS IEEE 2003 conference in Portland, submitted to
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Optical Spectroscopy Of X-Ray Sources In The Extended Chandra Deep Field South
We present the first results of our optical spectroscopy program aimed to provide redshifts and identifications for the X-ray sources in the Extended Chandra Deep Field South. A total of 339 sources were targeted using the IMACS spectrograph at the Magellan telescopes and the VIMOS spectrograph at the VLT. We measured redshifts for 186 X-ray sources, including archival data and a literature search. We find that the active galactic nucleus (AGN) host galaxies have on average redder rest-frame optical colors than nonactive galaxies, and that they live mostly in the "green valley." The dependence of the fraction of AGNs that are obscured on both luminosity and redshift is confirmed at high significance and the observed AGN spatial density is compared with the expectations from existing luminosity functions. These AGNs show a significant difference in the mid-IR to X-ray flux ratio for obscured and unobscured AGNs, which can be explained by the effects of dust self-absorption on the former. This difference is larger for lower luminosity sources, which is consistent with the dust opening angle depending on AGN luminosity.National Aeronautics and Space Administration PF8-90055, NAS8-03060NSF AST0407295Spitzer JPL RSA1288440Natural Science and Engineering Research Council of Canada (NSERC)National Academy of SciencesNASA/INTEGRAL NNG05GM79GAstronom
Erosion and Repair of Unlined Spillway Chute Excavated in Rock
Discharges up to 60,000 cfs that lasted 21 days caused extensive erosion of the unlined spillway chute excavated in alternating layers of limestone and shale. An empirical model allowed to evaluate the extent of erosion anticipated for future events. Parametric calculations showed that relatively low discharges a long period of time are critical for the induced damage. It was determined that the spillway can safely pass the design discharge if weathering of rock exposed by erosion is prevented. Accordingly, the interim repair was designed to protect the rock units, especially the critical limestone layers, from weathering. Although it is expected much of the repair to be eroded during future spillway flows, it will ensure the spillway can safely pass the next discharge event
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