Optimal sensor placement in hydropower house based on improved triaxial effective independence method 被引量：4

Optimal sensor placement in hydropower house based on improved triaxial effective independence method

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摘要 The capacity and size of hydro-generator units are increasing with the rapid development of hydroelectric enterprises, and the vibration of the powerhouse structure has increasingly become a major problem. Field testing is an important method for research on dynamic identification and vibration mechanisms. Research on optimal sensor placement has become a very important topic due to the need to obtain effective testing information from limited test resources. To overcome inadequacies of the present methods, this paper puts forward the triaxial effective independence driving-point residue （EfI3-DPR3） method for optimal sensor placement. The Efl3-DPR3 method can incorporate both the maximum triaxial modal kinetic energy and linear independence of the triaxial target modes at the selected nodes. It was applied to the optimal placement oftriaxial sensors for vibration testing in a hydropower house, and satisfactory results were obtained. This method can provide some guidance for optimal placement of triaxial sensors of underground powerhouses. The capacity and size of hydro-generator units are increasing with the rapid development of hydroelectric enterprises, and the vibration of the powerhouse structure has increasingly become a major problem. Field testing is an important method for research on dynamic identification and vibration mechanisms. Research on optimal sensor placement has become a very important topic due to the need to obtain effective testing information from limited test resources. To overcome inadequacies of the present methods, this paper puts forward the triaxial effective independence driving-point residue （EfI3-DPR3） method for optimal sensor placement. The Efl3-DPR3 method can incorporate both the maximum triaxial modal kinetic energy and linear independence of the triaxial target modes at the selected nodes. It was applied to the optimal placement oftriaxial sensors for vibration testing in a hydropower house, and satisfactory results were obtained. This method can provide some guidance for optimal placement of triaxial sensors of underground powerhouses.

作者 Ji-jian LIAN Long-jun HE Hai-jun WANG

机构地区 State Key Laboratory of Hydraulic Engineering Simulation and Safety

出处《Water Science and Engineering》 EI CAS 2012年第3期329-339,共11页 水科学与水工程（英文版）

基金 supported by the National Natural Science Foundation of China (Grant No. 50909072) the New Teachers' Fund for Doctor Station, the Ministry of Education of China (Grant No. 20090032120082) the Communication Research Item for the West Area, the Ministry of Communications of China (Grant No. 2009328000084)

关键词 triaxial sensor ＂ optimal placement ＂ Efl3-DPR3 method ＂ hydropower house ＂vibration testing triaxial sensor,＂ optimal placement,＂ Efl3-DPR3 method,＂ hydropower house,＂vibration testing

分类号 TV736 [水利工程—水利水电工程] U441 [建筑科学—桥梁与隧道工程]

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