000196857 001__ 196857
000196857 005__ 20190104141539.0
000196857 020__ $$a978-1-315-88727-2978-1-138-00094-0
000196857 02470 $$2ISI$$a000328113100230
000196857 037__ $$aCONF
000196857 245__ $$aRock mass assessment and corresponding TBM operation optimization for TBM tunneling at depth - a case study of Jinping II hydropower station
000196857 269__ $$a2013
000196857 260__ $$aBoca Raton$$bCrc Press-Taylor & Francis Group$$c2013
000196857 300__ $$a8
000196857 336__ $$aConference Papers
000196857 520__ $$aDuring TBM tunneling at the great depth, problems such as high in situ stress, groundwater inflow and fractured rock masses are main reasons of the geotechnical risk occurrence in TBM tunneling. Thus it is necessary to modify TBM and optimize TBM operation parameters for improving TBM performance when encountering these adverse geological conditions. In china, two of four headrace tunnels in Jinping II hydropower station project are constructed by two tunnel boring machines. The headrace tunnels are approximately 16.7 km in length and the maximum overburden depth is up to 2,525m. In this paper, the rock masses along the headrace tunnels of Jinping II hydropower station are assessed, and then are classified into three typical excavation sections according to the main controlling factors of TBM excavation. The three typical excavation sections are the normal excavation section, the excavation section controlled by high in situ stress and the excavation section controlled by large groundwater inflow, respectively. In order to overcome the adverse geological conditions in these typical exaction sections, the corresponding modifications and operation optimization for TBM are proposed in this paper. The experiences obtained from Jinping II hydropower station can provide useful reference and guidance for TBM tunneling at depth.
000196857 700__ $$aYin, L. J.
000196857 700__ $$aGong, Q. M.
000196857 700__ $$0240199$$aZhao, J.$$g169975
000196857 7112_ $$aWorld Tunnel Congress (WTC) / 39th General Assembly of the International-Tunnelling-and-Underground-Space-Association (ITA)
000196857 720_1 $$aAnagnostou, G.$$eed.
000196857 720_1 $$aEhrbar, H.$$eed.
000196857 773__ $$q1788-1795$$tUnderground - The Way To The Future
000196857 909C0 $$0252061$$pLMR$$xU10258
000196857 909CO $$ooai:infoscience.tind.io:196857$$pconf$$qENAC
000196857 917Z8 $$x198950
000196857 937__ $$aEPFL-CONF-196857
000196857 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000196857 980__ $$aCONF