Title :
Monitor of Deep Drain Stability in High Steep Slope
Author :
Ma Wen-Bin ; Cao Jian-Hao ; Long Ke-Ning ; Sun Ning ; Ruan Dongwei
Author_Institution :
Zhejiang Province Inst. of Commun. Planning, Design & Res., Hangzhou, China
Abstract :
Through the geological prospecting and the hydrological conditions survey in the real engineering, combined with the results of drainage pipes with finite element analysis, the specific buried project of deep drainage pipes is identified. The slope surface deformation is monitored by using total station and GPS, the slope internal displacement is monitored by using inclinometer. Monitoring results for many times in 18 months are analyzed. The largest surface deformation is 41.4 mm, and the largest internal deformation is only 10 mm, all are less than the first order of allowing deformation 123.75 mm of 0.0025h (h is the height of slope). Slope stability is got, and it is further validated the slope has a good stability after the deep drainage treating.
Keywords :
Global Positioning System; condition monitoring; deformation; finite element analysis; geophysical prospecting; geotechnical engineering; geotechnical structures; hydrological techniques; mechanical stability; structural engineering; GPS; deep drain stability monitoring; deep drainage pipes; finite element analysis; geological prospecting; high steep slope; hydrological conditions; inclinometer; slope internal displacement; slope surface deformation; Finite element analysis; Global Positioning System; Monitoring; Power system stability; Rocks; Stability analysis; computer simulation; data flow; medicine;
Conference_Titel :
Intelligent Systems Design and Engineering Applications, 2013 Fourth International Conference on
Conference_Location :
Zhangjiajie
Print_ISBN :
978-1-4799-2791-3
DOI :
10.1109/ISDEA.2013.492
