Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 11, Part 4American Society of Mechanical Engineers, 1992 - Arctic regions |
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Page 114
... presented . Next the thermal properties of soils will be discussed . Equations will be presented that provide a means of predicting the temperature variation in the soil as a function of time and depth . Then a means to calculate the ...
... presented . Next the thermal properties of soils will be discussed . Equations will be presented that provide a means of predicting the temperature variation in the soil as a function of time and depth . Then a means to calculate the ...
Page 114
... presented . Next the thermal properties of soils will be discussed . Equations will be presented that provide a means of predict- ing the temperature variation in the soil as a function of time and depth . Then a means to calculate the ...
... presented . Next the thermal properties of soils will be discussed . Equations will be presented that provide a means of predict- ing the temperature variation in the soil as a function of time and depth . Then a means to calculate the ...
Page 415
... presented as functions of time . The heat transferred to the pipe is also presented . The pipe is assumed to be unable to move independently of the freeze bulb , and estimates of the maximum static horizontal and ver- tical forces ...
... presented as functions of time . The heat transferred to the pipe is also presented . The pipe is assumed to be unable to move independently of the freeze bulb , and estimates of the maximum static horizontal and ver- tical forces ...
Contents
ICEENVIRONMENT STATISTICS | 1 |
Seasonal Ice Cover Variability in a Coupled IceOcean Model for the Arctic Ocean | 11 |
An Illustration of Theoretical and Empirical Errors and the Effect of the Resolution of the | 21 |
Copyright | |
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analysis angle Arctic/Polar Technology ASME beam Beaufort Sea berm brine calculated Canada Cold Regions compressive conducted crack creep Croasdale curves deflection density displacement drag drag coefficient effect elastic equation evaporator experimental failure finite element flexural floe flow fluid form drag fracture toughness freezing frequency friction coefficient heat transfer ice cover ice forces ice load ice movement ice plates ice rubble ice sheet ice thickness increase indentor Laboratory layer length linear maximum mode offshore structure OMAE panels parameters permafrost pile plane strain plastic Plastic Analysis plotted Poisson's Ratio pore pressure predictions ratio Research Ride-Up ridge rubble field salinity samples scale sea ice sensors shear shear strength shear stress shown in Figure simulation snow soil spray ice strain rate strength stress surface Technology ASME 1992 temperature thaw thaw depth thermal thermosyphon Timco tube Tuktoyaktuk values velocity vertical