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Strain rate effect on the strength of frozen silt (1975)

Haynes, Francis D. [VerfasserIn] ; Karalius, Jack A. [VerfasserIn] ; Kalafut, John [VerfasserIn]

Hanover, N.H. : U.S. Army Cold Regions Research and Engineering Laboratory

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Call number: ZSP-202-350

In: Research report / Cold Regions Research and Engineering Laboratory, 350

Type of Medium: Series available for loan

Pages: iv, 27 Seiten , Illustrationen

Series Statement: Research report / Cold Regions Research and Engineering Laboratory 350

URL: https://usace.contentdm.oclc.org/digital/collection/p266001coll1/id/6211

Language: English

Note: CONTENTS: Abstract. - Preface. - Introduction. - Sample preparation. - Apparatus and testing procedure. - Test results. - Uniaxial strength. - Initial tangent and 50% strength moduli. - Specific energy. - Discussion. - Testing method. - Compressive strength. - Tensile strength. - Ductile and brittle fracture.. - Initial tangent and 50% stress moduli. - Specific energy. - Conclusions and recommendations. - References. - Appendix A: Description of soil and calculations. - Appendix B: Description of the LVDT and averaging circuits. - Appendix C: Determination of strain in the neck section of a dumbbell specimen.

Location: AWI Archive

Branch Library: AWI Library

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Climate Change and Weather Extremes in the Eastern Mediterranean and Middle East (2022)

Zittis, G. ; Almazroui, M. ; Alpert, P. ; [et al.]

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Publication Date: 2022-10-13

Description: Observation‐based and modeling studies have identified the Eastern Mediterranean and Middle East (EMME) region as a prominent climate change hotspot. While several initiatives have addressed the impacts of climate change in parts of the EMME, here we present an updated assessment, covering a wide range of timescales, phenomena and future pathways. Our assessment is based on a revised analysis of recent observations and projections and an extensive overview of the recent scientific literature on the causes and effects of regional climate change. Greenhouse gas emissions in the EMME are growing rapidly, surpassing those of the European Union, hence contributing significantly to climate change. Over the past half‐century and especially during recent decades, the EMME has warmed significantly faster than other inhabited regions. At the same time, changes in the hydrological cycle have become evident. The observed recent temperature increase of about 0.45°C per decade is projected to continue, although strong global greenhouse gas emission reductions could moderate this trend. In addition to projected changes in mean climate conditions, we call attention to extreme weather events with potentially disruptive societal impacts. These include the strongly increasing severity and duration of heatwaves, droughts and dust storms, as well as torrential rain events that can trigger flash floods. Our review is complemented by a discussion of atmospheric pollution and land‐use change in the region, including urbanization, desertification and forest fires. Finally, we identify sectors that may be critically affected and formulate adaptation and research recommendations toward greater resilience of the EMME region to climate change.

Description: Key Points: The Eastern Mediterranean and Middle East is warming almost two times faster than the global average and other inhabited parts of the world. Climate projections indicate a future warming, strongest in summers. Precipitation will likely decrease, particularly in the Mediterranean. Virtually all socio‐economic sectors will be critically affected by the projected changes.

Description: European Union Horizon 2020

Description: https://esg-dn1.nsc.liu.se/search/esgf-liu/

Keywords: ddc:551.6

Language: English

Type: doc-type:article

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Assessment of the WRF model as a guidance tool into Cloud seeding operations in the United Arab Emirates (2023)

Fonseca, R. ; Francis, D. ; Nelli, N. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-04-20

Description: With the projected expansion of arid/semi-arid regions in a warming world, precipitation enhancement activities such as cloud seeding will become increasingly popular and relied upon. Due to the inherent costs, a successful planning is crucial, which involves accurate model predictions. In this talk, the usefulness of the Weather Research and Forecasting (WRF) model forecasts for guidance into seeding operations in the United Arab Emirates, where seeding activities have been conducted for more than two decades, is assessed. The WRF predictions are compared with ground-based, satellite-derived and radar reflectivity data, and in-situ observations onboard the airplanes used to perform the seeding operations. WRF is found to have higher skill in simulating the observed cloud top pressure/temperature than the cloud fraction, with the model vertical velocity predictions also more skillful than those of the radar reflectivity. A stronger Arabian Heat Low in the model leads to drier conditions which, together with a surface cold bias, limits the spatial extent and vertical depth of the simulated convective clouds. Development of convective rolls in the boundary layer is reported in both observations and simulations and their interaction with cold pools from convective clouds promote the development of secondary convection. When considering the two factors needed for a successful seeding operation, the presence of an updraft and clouds, the model-predicted seeding regions largely match the areas where precipitation was observed. As the proposed WRF set up can be used operationally, the model forecasts will bring added value to the seeding activities in the country.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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Atmospheric triggers of the Brunt Ice Shelf calving in February 2021 (2023)

Francis, D. ; Fonseca, R. ; Mattingly, K. ; [et al.]

In: XXVIII General Assembly of the International Union of Geodesy and Geophysics (IUGG)

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Publication Date: 2023-09-12

Description: The calving of Antarctic ice shelves remains unpredictable to date due to a lack of understanding of the role of the different climatic components in such events. In this presentation, the role of atmospheric forcing in the calving of the Brunt Ice Shelf (BIS) in the Weddell Sea sector of Antarctica in February 2021 is discussed using a combination of observational and reanalysis data. The occurrence of a series of extreme cyclones around the time of the calving induced an oceanward sea-surface slope of 〉0.08° leading to the calving along a pre-existing rift. The severe storms were sustained by the development of a pressure dipole on both sides of the BIS associated with a La Niña event and the positive phase of the Southern Annular Mode. Poleward advection of warmer and more moist low-latitude air over the BIS area just before the calving was also observed in association with atmospheric rivers accompanying the cyclones. Immediately after the calving, strong offshore winds continued and promoted the drift of the newly-formed iceberg A-74 in the Weddell Sea at a speed of up to 700 m/day. The findings of this work highlight the contribution of local atmospheric conditions to ice-shelf dynamics. The link to the larger scale circulation patterns indicates that both need to be accounted for in the projections of Antarctic ice shelf evolution.

Language: English

Type: info:eu-repo/semantics/conferenceObject

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