TY - JOUR
T1 - Numerical simulation of three-dimensional velocity fields in pressurized and non-pressurized Nye channels
AU - Bates, Paul D.
AU - Siegert, Martin J.
AU - Lee, Victoria
AU - Hubbard, Bryn P.
AU - Nienow, Peter W.
PY - 2003
Y1 - 2003
N2 - Channels incised into bedrock, or Nye channels, often form an important component of subglacial drainage at temperate glaciers, and their structure exerts control over patterns and rates of (a) channel erosion, (b) water flow-velocity and (c) water pressure. The latter, in turn, exerts a strong control over basal traction and, thus, ice dynamics. In order to investigate these controls, it is necessary to quantify detailed flow processes in subglacial Nye channels. However, it is effectively impossible to acquire such measurements from fully pressurized, subglacial channels. To solve this problem, we here apply a three-dimensional, finite-volume solution of the Reynolds averaged Navier-Stokes (RANS) equations with a one-equation mixing-length turbulence closure to simulate flow in a 3 m long section of an active Nye channel located in the immediate foreground of Glacier de Tsanfleuron, Switzerland. Numerical model output permits high-resolution visualization of water flow through the channel reach, and enables evaluation of the experimental manipulation of the pressure field adopted across the overlying ice lid. This yields an increased theoretical understanding of the hydraulic behaviour of Nye channels, and, in the future, of theír effect on glacier drainage, geomorphology and ice dynamics.
AB - Channels incised into bedrock, or Nye channels, often form an important component of subglacial drainage at temperate glaciers, and their structure exerts control over patterns and rates of (a) channel erosion, (b) water flow-velocity and (c) water pressure. The latter, in turn, exerts a strong control over basal traction and, thus, ice dynamics. In order to investigate these controls, it is necessary to quantify detailed flow processes in subglacial Nye channels. However, it is effectively impossible to acquire such measurements from fully pressurized, subglacial channels. To solve this problem, we here apply a three-dimensional, finite-volume solution of the Reynolds averaged Navier-Stokes (RANS) equations with a one-equation mixing-length turbulence closure to simulate flow in a 3 m long section of an active Nye channel located in the immediate foreground of Glacier de Tsanfleuron, Switzerland. Numerical model output permits high-resolution visualization of water flow through the channel reach, and enables evaluation of the experimental manipulation of the pressure field adopted across the overlying ice lid. This yields an increased theoretical understanding of the hydraulic behaviour of Nye channels, and, in the future, of theír effect on glacier drainage, geomorphology and ice dynamics.
UR - http://www.scopus.com/inward/record.url?scp=1442287102&partnerID=8YFLogxK
U2 - 10.3189/172756403781815609
DO - 10.3189/172756403781815609
M3 - Article
AN - SCOPUS:1442287102
SN - 0260-3055
VL - 37
SP - 281
EP - 285
JO - Annals of Glaciology
JF - Annals of Glaciology
ER -