TY - JOUR
T1 - Hard rock TBM Tunnelling - on the way to a better prognosis?
AU - Thuro, Kurosch
AU - Wilfing, Lisa
AU - Wieser, Carola
AU - Ellecosta, Peter
AU - Käsling, Heiko
AU - Schneider, Eckart
N1 - Publisher Copyright:
© 2015 Ernst & Sohn Verlag für Architektur und technische Wissenschaften GmbH & Co. KG, Berlin.
PY - 2015/6/1
Y1 - 2015/6/1
N2 - Five universities from Austria, Germany and Switzerland, working intensively together with partners from the industry, client organisations, companies, consultants and TBM manufacturers, have combined to develop a new prognosis model for TBM advance rate and disc wear (the "ALPINE MODEL"). This article presents some new results from the project. Fundamentally, the new model is to be a development of the model from Gehring, which calculates the penetration from the ratio of disc load to uniaxial compression strength. Since this equation was derived from data collected from a limited number of projects in the 1980s, it is of great importance to widen the data base and to establish a standardised process for this purpose. For on-site tests, the "Start-stop-penetration test" is considered the most efficient and suitable method. This test can be carried out with the TBM in the course of tunnelling and thus results in little delay. In addition to the recording of TBM data during the penetration test, detailed geological documentation of the face and the tunnel sides has to be undertaken, accompanied by geomechanical laboratory tests. A large number of such penetration tests have now been carried out on various tunnel projects in order to validate and improve the basic formula. Some of the first results are described in this article. Further themes include the rock mechanical parameters to be used, the influence of the primary stress conditions at the face and the abrasiveness of the rock.
AB - Five universities from Austria, Germany and Switzerland, working intensively together with partners from the industry, client organisations, companies, consultants and TBM manufacturers, have combined to develop a new prognosis model for TBM advance rate and disc wear (the "ALPINE MODEL"). This article presents some new results from the project. Fundamentally, the new model is to be a development of the model from Gehring, which calculates the penetration from the ratio of disc load to uniaxial compression strength. Since this equation was derived from data collected from a limited number of projects in the 1980s, it is of great importance to widen the data base and to establish a standardised process for this purpose. For on-site tests, the "Start-stop-penetration test" is considered the most efficient and suitable method. This test can be carried out with the TBM in the course of tunnelling and thus results in little delay. In addition to the recording of TBM data during the penetration test, detailed geological documentation of the face and the tunnel sides has to be undertaken, accompanied by geomechanical laboratory tests. A large number of such penetration tests have now been carried out on various tunnel projects in order to validate and improve the basic formula. Some of the first results are described in this article. Further themes include the rock mechanical parameters to be used, the influence of the primary stress conditions at the face and the abrasiveness of the rock.
KW - Alpine Model
KW - Engineering geology - Ingenieurgeologie
KW - Excavation works
KW - Mechanized tunnelling - Maschineller Vortrieb
KW - Prediction formula
KW - Rock abrasivity
KW - Rock mechanics - Felsmechanik
KW - Rock properties
KW - TBM performance
UR - http://www.scopus.com/inward/record.url?scp=84930469901&partnerID=8YFLogxK
U2 - 10.1002/geot.201500008
DO - 10.1002/geot.201500008
M3 - Article
AN - SCOPUS:84930469901
SN - 1865-7362
VL - 8
SP - 191
EP - 199
JO - Geomechanik und Tunnelbau
JF - Geomechanik und Tunnelbau
IS - 3
ER -