skip to primary navigation skip to content
 

 

You are not currently logged in

SPRI library catalogue

View a record

Please note: You are viewing the legacy database of the Scott Polar Research Institute Library catalogue. It is no longer being updated, so does not reliably reflect our current library holdings.

Please search for material in iDiscover for up-to-date information about the library collection.


Record #207821:

Anisotropic thermal conductivity model for dry snow / Richard H. Shertzer, Edward E. Adams.

Title: Anisotropic thermal conductivity model for dry snow / Richard H. Shertzer, Edward E. Adams.
Author(s): Shertzer, Richard H.
Adams, Edward E.
Date: 2011.
In: Cold Regions Science and Technology. (2011.), Vol. 69(2-3) (2011)
Abstract: Proposes conductivity model for dry snow which incorporates fabric tensor, linking textural arrangement of granular assembly to material property. Study subjects dry dense snow to temperature gradient in lab, observing that heat transfer coefficient increases in direction of gradient without change in density. Obtains microstructural data through periodic tomography to calculate fabric tensor and evolving conductivity tensor. Model predicts directionally-dependent behaviour unlike models parametrised by density alone.
Notes:

Cold Regions Science and Technology. Vol. 69(2-3) :122-128 (2011).

Keywords: 551.32 -- Glaciology.
551.321 -- Glaciological methods and instruments.
551.321.7 -- Snow cover, measurement of properties.
551.321.82 -- Snow analogues, experimental.
551.322 -- Ice and snow.
551.578.46 -- Snow cover and snow patches.
551.578.465 -- Snow cover, stratification.
E10 -- Glaciology: snow and avalanches.
SPRI record no.: 207821

MARCXML

LDR 01762naa#a2200000#a#4500
001 SPRI-207821
005 20220928120828.0
007 ta
008 220928s2011####xx#a##|##|###|0||#0|eng#d
035 ## ‡aSPRI-207821
040 ## ‡aUkCU-P‡beng‡eaacr
100 1# ‡aShertzer, Richard H.
245 10 ‡aAnisotropic thermal conductivity model for dry snow /‡cRichard H. Shertzer, Edward E. Adams.
260 ## ‡a[S.l.] :‡b[s.n.],‡c2011.
300 ## ‡ap. 122-128 :‡bill., diags., table.
500 ## ‡aCold Regions Science and Technology. Vol. 69(2-3) :122-128 (2011).
520 3# ‡aProposes conductivity model for dry snow which incorporates fabric tensor, linking textural arrangement of granular assembly to material property. Study subjects dry dense snow to temperature gradient in lab, observing that heat transfer coefficient increases in direction of gradient without change in density. Obtains microstructural data through periodic tomography to calculate fabric tensor and evolving conductivity tensor. Model predicts directionally-dependent behaviour unlike models parametrised by density alone.
530 ## ‡aAlso issued online ‡uurn:doi:10.1016/j.coldregions.2011.09.005‡uhttps://dx.doi.org/10.1016/j.coldregions.2011.09.005
650 07 ‡a551.32 -- Glaciology.‡2udc
650 07 ‡a551.321 -- Glaciological methods and instruments.‡2udc
650 07 ‡a551.321.7 -- Snow cover, measurement of properties.‡2udc
650 07 ‡a551.321.82 -- Snow analogues, experimental.‡2udc
650 07 ‡a551.322 -- Ice and snow.‡2udc
650 07 ‡a551.578.46 -- Snow cover and snow patches.‡2udc
650 07 ‡a551.578.465 -- Snow cover, stratification.‡2udc
650 07 ‡aE10 -- Glaciology: snow and avalanches.‡2local
700 1# ‡aAdams, Edward E.
773 0# ‡7nnas ‡tCold Regions Science and Technology. ‡gVol. 69(2-3) (2011) ‡wSPRI-59075
916 ## ‡a2014/04/03 -- jhr
917 ## ‡aUnenhanced record from Muscat, imported 2019
948 3# ‡a20220928 ‡bjhr