23,785 research outputs found
A Study of the Freezing Cycle in an Alaskan Stream : A Completion Report
The work upon which this report is based was supported in part by
funds (Proj. A-012-ALAS) provided by the United States Department of
the Interior, Office of Water Resources Research, as authorized under
the Water Resources Act of 1964, as amended
Foreword
This issue of Cunninghamia contains the first two papers of a project involving the classification and assessment of the native vegetation of New South Wales, Australia (NSWVCA). Besides developing a comprehensive typology of the vegetation, the project aims to assess the protected area and threat status of the State’s vegetation. It collates information on vegetation composition, geographic distribution of plant communities, physiographic features, threats, aspects of condition, planning and management and representation in protected areas into a single database system. A photographic library is also being collated for use with the database and use in publications and education programs
Remote sensing of global snowpack energy and mass balance: In-situ measurements on the snow of interior and Arctic Alaska
Observations led to a study of the physical properties of snow and the processes which operate on it. These observations included microwave brightness temperatures in interior Alaska which revealed: (1) up to three times more variability from one cell (1/2 degree latitude x 1/2 degree longitude) to the next in winter than in summer (5 to 15 K in winter and about 5 K in summer); (2) the overall range of temperature from week to week is about seven times greater in winter than in summer; (3) the microwave brightness temperature is about 25 K less than air temperature during summer but 35 to 60 K less during winter; and (4) the presence of snow cover appears to contribute to increasing the difference between air temperature and brightness temperature. The role of irregular substrate under the snow in enhancing convection has been studied with particular attention to variations in snow cover on water surfaces and in forested regions. LANDSAT imagery has been obtained to prepare a classification of ground surface types of the area. The extreme conditions of the 1988 to 1989 winter are discussed with respect to comparing the microwave data sets from 1985, and before, up to the present. The use of the Mt. Wrangell area as aerial photogrammetric controls for glacier measurements is given attention
Snow cover surveys in Alaska from ERTS-1 data
September and October ERTS scenes have been analyzed to delineate snow cover patterns in northern Alaska's Brooks Range and on Mt. Wrangell, and active volcano in South Central Alaska. ERTS images demonstrate that the snow on the northern foothills of the Brooks Range are significantly more affected by katabatic wind action than are the southern foothills. Aufeis deposits along arctic rivers also can be identified in late summer. A survey of such aufeis deposits could identify additional summertime sources of fresh water supplies. Images of Mt. Wrangell permit monitoring of the interaction between volcanic heat and the mass balance of glaciers that exist on active volcanoes. Temporal changes in the areas of bare rock on the rim of the caldera on the summit reveal significant melting of new snow from an extensive storm on August 18. Digital analysis of data from subsequent passes over the summit on September 7, 23 and 24 revealed considerable bare rock exposed by melting, which is virtually impossible from solar heating at this altitude and date
Entropy Injection as a Global Feedback Mechanism
Both preheating of the intergalactic medium and radiative cooling of low
entropy gas have been proposed to explain the deviation from self-similarity in
the cluster L_x-T_x relation and the observed entropy floor in these systems.
However, severe overcooling of gas in groups is necessary for radiative cooling
alone to explain the observations. Non-gravitational entropy injection must
therefore still be important in these systems. We point out that on scales of
groups and below, gas heated to the required entropy floor cannot cool in a
Hubble time, regardless of its subsequent adiabatic compression. Preheating
therefore shuts off the gas supply to galaxies, and should be an important
global feedback mechanism for galaxy formation. Constraints on global gas
cooling can be placed from the joint evolution of the comoving star formation
rate and neutral gas density. Preheating at high redshift can be ruled out;
however the data does not rule out passive gas consumption without inflow since
z~2. Since for preheated gas t_cool > t_dyn, we speculate that preheating could
play a role in determining the Hubble sequence: at a given mass scale, high
sigma peaks in the density field collapse early to form ellipticals, while low
sigma peaks collapse late and quiescently accrete preheated gas to form
spirals. The entropy produced by large scale shock-heating of the intergalatic
medium is significant only at late times, z<1, and cannot produce these
effects.Comment: 10 pages, submitted to MNRA
Overall buckling of lightweight stiffened panels using an adapted orthotropic plate method
The ultimate longitudinal bending strength of thin plated steel structures such as box girder bridges and ship hulls can be determined using an incremental–iterative procedure known as the Smith progressive collapse method. The Smith method first calculates the response of stiffened panel sub-structures in the girder and then integrates over the cross section of interest to calculate a moment–curvature response curve. A suitable technique to determine the strength behaviour of stiffened panels within the Smith method is therefore of critical importance. A fundamental assumption of the established progressive collapse method is that the buckling and collapse behaviour of the compressed panels within the girder occurs between adjacent transverse frames. However, interframe buckling may not always be the dominant collapse mode, especially for lightweight stiffened panels such as are found in naval ships and aluminium high speed craft. In these cases overall failure modes, where the buckling mode extends over several frame spaces, may dominate the buckling and collapse response. To account for this possibility, an adaptation to large deflection orthotropic plate theory is presented. The adapted orthotropic method is able to calculate panel stress–strain response curves accounting for both interframe and overall collapse. The method is validated with equivalent nonlinear finite element analyses for a range of regular stiffened panel geometries. It is shown how the adapted orthotropic method is implemented into an extended progressive collapse method, which enhances the capability for determining the ultimate strength of a lightweight stiffened box girder
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