Because the prediction accuracy of ANN and Fuzzy system algorithm is insufficient for underground powerhouse rock surrounding stability,the method of Accurate Online Support Vector Regression(AOSVR)was ap- plied to study the evolution law for underground powerhouse rock surrounding displacement.

The substructure of the powerhouse, especially the underground powerhouse of the large-scaled station, in the natural environment, is subjected to the continuously changing air temperature, solar radiation and water temperature.

As an important constituent part of the power station, the powerhouse, especially the underground powerhouse of the large-scaled station, induces serious vibration problem, which brings various impairs, even causes danger of the whole st.

Study on optimization of blasting parameters of anchoring rock beam in the underground workshop of baise hydroelectric station;

Analysis of the leakage in the underground workshopof Xianghongdian Pumped Storage Station;

The monitoring project of Zhouning Hydropower station underground plant and water intake system including monitoring of the surrounding rock deformation,bolt stress,osmotic pressure and joint.

Supporting for the top vault of underground plant in Xiaolangdi project is carried out in two stages.

Applying the ROCKY analysis programme, a FEM nonlinear numerical simulation is performed for the Original stress field of the adjoining rock of the underground plant area of the Qingjiang Shuibuya key hydropower and the stress field of post - excavation of underground space.