Study on the Method of Online Adaptive Adjustment Method for Torsional Vibration Model of Turbine Shafting

Xi He; Yu Jiong Gu

doi:10.4028/www.scientific.net/AMM.602-605.684

Paper Titles

Structural Analysis of Servo Put Thread Machine
p.666

Analysis of III-Conditioned Characteristics about Weight Location of Rotor Dynamic Balancing
p.670

Three Dimensional Dynamic Analysis of Crack Growth in Unreinforced Baked Brick Shear Wall
p.674

Deep-Hole Drilling Negative Pressure Device Injection Process Simulation Analysis Based on Fluent
p.680

Study on the Method of Online Adaptive Adjustment Method for Torsional Vibration Model of Turbine Shafting
p.684

Research Method of Aerodynamic Characteristics of Heavy Duty Truck in Crosswind
p.689

Numerical Simulation of Cylindrical Hollow Steel Specimen in Quenching
p.693

Using Inverter Frequency in Continuous Caster Length Cutting System of the Cutting Scale Calculation
p.697

Optimal Design of Hot Rolling Strip Mill Housing with Improved GA
p.701

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 602-605Study on the Method of Online Adaptive Adjustment...

Study on the Method of Online Adaptive Adjustment Method for Torsional Vibration Model of Turbine Shafting

Abstract:

The accuracy of safety analysis can be guaranteed when the torsional vibration model is adjusted online according to the inherent characteristics of the torsional vibration of the shafting. Torsional stiffness of model is set as the object for adjustment. The sensitivity of the natural frequency of torsional vibration model to structure parameters is analyzed and the sensitivity of the natural frequency of torsional vibration model to torsional stiffness is calculated. According to the difference between the natural frequency of torsional vibration which is get from actual shafting and the natural frequency of torsional vibration which is calculated by torsional vibration model, the adaptive adjustment of the torsional stiffness of mode is solved by using the method of Taylor expansion which ignore two times or more correction. The logic structure of the adaptive process of torsional vibration model is designed and the online adaptive function of torsional vibration model is implemented in the torsional vibration safety and analysis system. The torsional vibration modelof 1000WM turbogenerator is used as an example and the accuracy of the method is verified.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 602-605)

Pages:

684-688

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.602-605.684

Citation:

Cite this paper

Online since:

August 2014

Authors:

Xi He*, Yu Jiong Gu

Keywords:

Model of Torsional Vibration, Natural Frequency Sensitivity, Torsional Stiffness Adaptive Method

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] RUSCHE P A. Turbine-Generator Shaft Stresses Due to Network Disturbances A Bibliography with Abstracts[J]. Power Apparatus and Systems, IEEE Transactions on, 1980 (6): 2146-2152.

DOI: 10.1109/tpas.1980.319793

Google Scholar

[2] CHYN C, WU R C, Tsao T P. Torsional fatigue of turbine-generator shafts owing to network faults[C]/ Generation, Transmission and Distribution, IEE Proceedings-. IET, 1996, 143(5): 479-486.

DOI: 10.1049/ip-gtd:19960598

Google Scholar

[3] LIU Chao, JIANG Dongxiang, XIE Xiaorong, et al. Fatigue damage of turbine generator shafting caused by subsynchronous oscillations [J]. Automation of Electric Power System Journal, 2010, 34 (15): 19-22.

Google Scholar

[4] BAO Wen, YANG Kun. Research on torsional vibration of turbogenerator shafts [J]. Steam turbine technology, 1998, 40 (4): 193-203.

Google Scholar

[5] HE Chengbing, GU Yujiong, YANG Kun. Turbogenerator torsional vibration model and algorithms [J]. Journal of North China Electric Power University, 2003, 30 (2): 56-60.

Google Scholar

[6] FAIRBAIRN R E, JENNINGS G D, HARLEY R G. Turbogenerator torsional mechanical modal parameter identification from on-line measurements[J]. Power Systems, IEEE Transactions on, 1991, 6(4): 1389-1395.

DOI: 10.1109/59.116980

Google Scholar

[7] GUO Li. Modification of a turbogenerator rotor torsional vibrationmodel [J]. Journal of Engineering for Thermal Energy and Power, 1998, 13 (3): 168-170.

Google Scholar

[8] ZHU Ping, ZHANG Baoheng. Check and correction of torsional vibration model [J]. Modern Electric Power, 1999, 16 (1): 1-4.

Google Scholar

[9] YAN Shuiping, HUANG Shuhong. Impact of temperature distribution on the torsional vibration of turbogenerator rotors[J]. Proceedings of the CSEE, 2000, 20 (11): 10-12.

Google Scholar

[10] CHOW J H, JAVID S H, SANCHEZ-GASCA J J, et al. Torsional model identification for turbine-generators[J]. Energy Conversion, IEEE Transactions on, 1986 (4): 83-91.

DOI: 10.1109/tec.1986.4765779

Google Scholar

[11] LI Shu, FENG Taihua, FAN Xuji. The structure design of highsensitivity[J]. Applied Mathematics and Mechanics, 1997, 18(4): 367-372.

Google Scholar

[12] XIANG Changle, LIAN Xiao Hui, ZHOU Lianjing. Sensitivity analysis and dynamic modification according to the actualtransmission system[J]. Chinese Journal of Mechanical Engineering, 2006, 17 (3): 325-328.

Google Scholar