Numerical analysis of penetration lengths in submerged supercritical water jets
Metadata only
Date
2013-10Type
- Journal Article
ETH Bibliography
yes
Altmetrics
Abstract
“Hydrothermal spallation drilling” is a possible alternative drilling technology that uses the properties of certain rock types to disintegrate into small fragments when heated up rapidly by a hot impinging fluid jet. Hot supercritical water jets are favored to provide the required heat for thermal rock fragmentation. However, the indispensable presence of a dense water-based drilling fluid during operation can cause considerable heat losses in the supercritical water jet before impingement on the rock surface. To predict these heat losses from the hot jet to the cold aqueous environment, a numerical model based on the commercial CFD tool ANSYS FLUENT® was established. Penetration lengths of the supercritical jet plume at near-critical pressures were determined numerically and validated with experimental values for a wide range of conditions. Experiments and simulations showed an acceptable agreement and the experimental trends were satisfactorily predicted by the model. Show more
Publication status
publishedExternal links
Journal / series
The Journal of Supercritical FluidsVolume
Pages / Article No.
Publisher
ElsevierSubject
Supercritical water jet; Hydrothermal; spallation drilling; Penetration; length; Numerical model; Entrainment; Heat transferOrganisational unit
03348 - Rudolf von Rohr, Philipp (emeritus) / Rudolf von Rohr, Philipp (emeritus)
More
Show all metadata
ETH Bibliography
yes
Altmetrics