1,448 research outputs found
An experimentally robust technique for halo measurement using the IPM at the Fermilab Booster
We propose a model-independent quantity, , to characterize non-Gaussian
tails in beam profiles observed with the Fermilab Booster Ion Profile Monitor.
This quantity can be considered a measure of beam halo in the Booster. We use
beam dynamics and detector simulations to demonstrate that is superior to
kurtosis as an experimental measurement of beam halo when realistic beam
shapes, detector effects and uncertainties are taken into account. We include
the rationale and method of calculation for in addition to results of the
experimental studies in the Booster where we show that is a useful halo
discriminator
Quasi-static granular flow of ice mélange
We use Landsat 8 imagery to generate ice mĂ©lange velocity fields at Greenlandâs three most
productive outlet glaciers: Jakobshavn IsbrĂŠ, Helheim Glacier, and Kangerdlugssuaq Glacier. Winter velocity
fields are generally steady and highly uniform. Summer velocity fields, on the other hand, tend to be much
more variable and can be uniform, compressional, or extensional. We rarely observe compressional flow
at Jakobshavn IsbrĂŠ or extensional flow at Helheim Glacier, while both are observed at Kangerdlugssuaq
Glacier. Transverse velocity profiles from all three locations are suggestive of viscoplastic flow, in which
deformation occurs primarily in shear zones along the fjord walls. We analyze the transverse profiles in
the context of quasi-static flow using continuum rheologies for granular materials and find that the force
per unit width that ice mélange exerts on glacier termini increases exponentially with the ice mélange
length-to-width ratio and the effective coefficient of friction. Our estimates of ice mélange resistance are
consistent with other independent estimates and suggest that ice mélange may be capable of inhibiting
iceberg calving events, especially during winter. Moreover, our results provide geophysical-scale support for
constitutive relationships for granular materials and suggest a potential avenue for modeling ice mélange
dynamics with continuum models.From acknowledgments:
Funding for this project was provided by the U.S. National Science Foundation (DMR-1506446 and DMR-1506307).
Digital elevation models were provided by the Polar Geospatial Center under the U.S. National Science Foundation (OPP-1043681, OPP-1559691, and OPP-1542736)Ye
Quasi-static granular flow of ice mélange
We use Landsat 8 imagery to generate ice mĂ©lange velocity fields at Greenlandâs three most
productive outlet glaciers: Jakobshavn IsbrĂŠ, Helheim Glacier, and Kangerdlugssuaq Glacier. Winter velocity
fields are generally steady and highly uniform. Summer velocity fields, on the other hand, tend to be much
more variable and can be uniform, compressional, or extensional. We rarely observe compressional flow
at Jakobshavn IsbrĂŠ or extensional flow at Helheim Glacier, while both are observed at Kangerdlugssuaq
Glacier. Transverse velocity profiles from all three locations are suggestive of viscoplastic flow, in which
deformation occurs primarily in shear zones along the fjord walls. We analyze the transverse profiles in
the context of quasi-static flow using continuum rheologies for granular materials and find that the force
per unit width that ice mélange exerts on glacier termini increases exponentially with the ice mélange
length-to-width ratio and the effective coefficient of friction. Our estimates of ice mélange resistance are
consistent with other independent estimates and suggest that ice mélange may be capable of inhibiting
iceberg calving events, especially during winter. Moreover, our results provide geophysical-scale support for
constitutive relationships for granular materials and suggest a potential avenue for modeling ice mélange
dynamics with continuum models.From acknowledgments:
Funding for this project was provided by the U.S. National Science Foundation (DMR-1506446 and DMR-1506307).
Digital elevation models were provided by the Polar Geospatial Center under the U.S. National Science Foundation (OPP-1043681, OPP-1559691, and OPP-1542736)Ye
The Amisk site : a multi-component campsite in south-central Saskatchewan
The Amisk site is a stratified archaeological site containing the remains of at least eight and possibly nine occupations over the past five millennia. A variety of subsistence activities occured at the site during these occupations such as food processing and preparation, tool making and tool repair. This combination of activities is characteristic of a habitation area. The Amisk site, therefore, represents a series of campsites adjacent to a small meandering stream. In this respect the Amisk site can be seen as analogous with other archaeological sites in Saskatchewan such as the Long Creek site, the Mortlach site, the Garratt site, the Oxbow Dam site as well as a number of sites in the Tipperary Creek valley including the Newo Asiniak site and the Tipperary Creek site which are presently being studied. Artifactual and chronological evidence supports and strengthens our understanding of the cultural chronology of southern Saskatchewan with projectile points and radiocarbon dates which coroborate existing data from the Oxbow complex
and the Late Side-Notched series
Third Interger Resonance Slow Extraction Using RFKO at High Space Charge
A proposal to search for direct {\mu}-->e conversion at Fermilab requires
slow, resonant extraction of an intense proton beam. Large space charge forces
will present challenges, partly due to the substantial betatron tune spread.
The main challenges will be maintaining a uniform spill profile and moderate
losses at the septum. We propose to use "radio frequency knockout" (RFKO) for
fine tuning the extraction. Strategies for the use of the RFKO method will be
discussed here in the context of the Mu2e experiment. The feasibility of this
method has been demonstrated in simulations.Comment: 3 pp. 2nd International Particle Accelerator Conference: IPAC 2011.
4-9 Sep 2011. San Sebastian, Spai
Involving Older Volunteers, in Public Schools
Each day, 5,000 Americans celebrate their sixty-fifth birthday. As this age group becomes larger, it will also become more powerful. As voters, seniors make up the most conscientious of the voting group in our society
An economic comparison of high moisture feedstock biofuel production
This study compares final fuel production costs of multiple biomass-to-liquid production facilities. Process economics are estimated for four different high moisture feedstocks, four different biomass supply chain pathways and three different conversion and upgrading technologies. Two biorefinery capacities are examined, small (200 tonne per day) and large (2000 tonne per day). Corn stover, corn silage giant miscanthus and sweet sorghum are the feedstocks considered for conversion via hydrothermal liquefaction (HTL) and anaerobic digestion (AD). Final product finishing is done by hydroprocessing of the HTL biocrude and either Fischer-Tropsch (FT) synthesis or methanol-to-gasoline (MTG) conversion of the AD biogas. Water footprints are estimated for blue, green and grey water consumption during the entire biofuel production process for each scenario.
In efforts to decrease the production costs, moisture and size reduction steps are omitted during the biomass supply chain stage. Multi-pass and single pass harvesting scenarios are considered along with wet and dry storage techniques. These steps lead to an estimated delivered feedstock cost ranging from 86.19 per tonne; comparable with recent literature. Conversion and upgrading pathways were chosen based on ability to handle high moisture feedstock. Capital investments were estimated for each technology scenario and ranged from 538 MM for the 2000 tpd biorefinery, within a degree of uncertainty; HTL resulted in the lowest estimated capital costs. Final fuel production costs ranged from 6.39 per gallon for all feedstocks and all conversion pathways, with stover and sorghum resulting in the lowest. The total water footprints were estimated to range from 5.92-23.21 Lw/Lb and 5.58-14.89 Lw/Lb for the conservative and optimal blue water scenarios, respectively. The green and grey water footprints ranged from 232.30-2,568.27 Lw/Lb and 296-526 L, respectively
Quantifying flow and stress in ice mĂ©lange, the worldâs largest granular material.
Tidewater glacier fjords are often filled with a collection of calved icebergs, brash ice, and sea ice. For glaciers with high calving rates, this âm Ìelangeâ of ice can be jam-packed, so that the flow of ice fragments is mostly determined by granular interactions. In the jammed state, ice m Ìelange has been hypothesized to influence iceberg calving and capsize, dispersion and attenuation of ocean waves, injection of freshwater into fjords, and fjord circulation. However, detailed measurements of ice m Ìelange are lacking due to difficulties in instrumenting remote, ice-choked fjords. Here we characterize the flow and associated stress in icem Ìelange, using a combination of terrestrial radar data, laboratory experiments, and numerical simulations. We find that, during periods of terminus quiescence, ice m Ìelange experiences laminar flow over timescales of hours to days. The uniform flow fields are bounded by shear margins along fjord walls where force chains between granular icebergs terminate. In addition, the average force per unit width that is transmitted to the glacier terminus, which can exceed 107N/m, increases exponentially with them Ìelange length-to-width ratio. These âbuttressingâ forces are sufficiently high to inhibit the initiation of large-scale calving events, supporting the notion that ice m Ìelange can be viewed as a weak granular ice shelf that transmits stresses from fjord walls back to glacier termini.Ye
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