To assess the stability of the underground powerhouse caverns and analyse the failure mechanism of the surrounding rock mass at the Baihetan hydropower station in southwest China, a high-resolution microseismic (MS) monitoring system was implemented in the left-bank underground powerhouse caverns. Based on the temporal and spatial distribution of MS events, the correlation between MS activities and construction was established, and three damage regions for the surrounding rock mass during excavation were identified. MS clusters were found to occur most often in stress-concentration regions of the underground powerhouse caverns and to result from various factors, including excavation-induced unloading and geological structure activation. The seismic source parameters (i.e., moment magnitudes and (S-wave) to (P-wave) energy ratios, E s /E p ) of the three MS clusters demonstrate the different failure modes and risks of the surrounding rock mass. The temporospatial evolution of the MS activities, apparent stress, and cumulative apparent volume in localized rock mass during the period of a typical large deformation were used to develop a comprehensive analytical method for forecasting the deformation of the surrounding rock mass. Thus, this comprehensive analytical method, which incorporates MS monitoring, conventional monitoring, geological survey and construction, is promising for identifying the damage zones and forecasting the macro-deformation of the surrounding rock mass in underground powerhouse caverns subjected to excavation.

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comprehensive analytical method temporal and spatial distribution of ms geological survey and construction surrounding rock excavation excavationinduced unloading geological structure underground powerhouse caverns forecasting the macrodeformation of failure mechanism highresolution microseismic ms monitoring system moment magnitudes temporospatial evolution of the ms activities apparent stress and cumulative apparent volume seismic source parameters swave to pwave energy ratios italiceitalic inf locpost italicsitalic infitaliceitalic inf locpost italicpitalic inf

Chuanqing Zhang, Yilin Fan,Feng Dai, Biao Li, Nuwen Xu,.Deformation forecasting and stability analysis of large-scale underground powerhouse caverns from microseismic monitoring. 86 (0),269-281.

Chuanqing Zhang, et al."Deformation forecasting and stability analysis of large-scale underground powerhouse caverns from microseismic monitoring" 86

Chuanqing Zhang, Yilin Fan,Feng Dai, Biao Li, Nuwen Xu,"Deformation forecasting and stability analysis of large-scale underground powerhouse caverns from microseismic monitoring"