Axiomatic design method for the rotor dynamics of the multi-source information coupled high-speed turbopump

Guoyuan Zhang, Weigang Zhao, Xiutian Yan, Junchao Wei, Yao Chen

Research output: Contribution to journalArticle

2 Citations (Scopus)

Abstract

The strong coupling design information from the different parts (such as bearings, seals, balance disc, etc) and the different fields (such as tribology, dynamics, fluid dynamics, etc) need to be addressed for finishing the design of an advanced high-speed turbopump rotor dynamics. For decoupling and integrating all of the multi-source information, the design method based on the axiomatic design method is proposed. The four levels of the functional requirements (FRs) and the design parameters (DPs) mapping for the high-speed turbopump rotor dynamics design process is developed, and the 14 DPs are integrated in the 5 parts of the rotor system, such as journal bearings, seal, thrust bearing, balance disc, and shaft. The 14× 14 design matrix is built. With the design matrix, the flow chart for the multi-source information coupled dynamics design method is obtained. A design case for a turbopump rotor dynamics is completed, and the major requirements are assessed. The results show the axiomatic design method for the high-speed turbopump rotor optimizes the dynamics design process and results.

Original languageEnglish
Pages (from-to)47-55
Number of pages9
JournalJixie Gongcheng Xuebao/Journal of Mechanical Engineering
Volume51
Issue number5
DOIs
Publication statusPublished - 1 Jan 2015

Fingerprint

Axiomatic Design
Rotor Dynamics
Design Method
High Speed
Rotors
Dynamic Process
Parameter Design
Rotor
Design Process
Tribology
Journal Bearing
Flow diagram
Requirements
Strong Coupling
Fluid Dynamics
Decoupling
Optimise
Design
Seals
Bearings (structural)

Keywords

  • axiomatic design method
  • high-speed turbopump
  • multi-source information
  • rotor dynamics

Cite this

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abstract = "The strong coupling design information from the different parts (such as bearings, seals, balance disc, etc) and the different fields (such as tribology, dynamics, fluid dynamics, etc) need to be addressed for finishing the design of an advanced high-speed turbopump rotor dynamics. For decoupling and integrating all of the multi-source information, the design method based on the axiomatic design method is proposed. The four levels of the functional requirements (FRs) and the design parameters (DPs) mapping for the high-speed turbopump rotor dynamics design process is developed, and the 14 DPs are integrated in the 5 parts of the rotor system, such as journal bearings, seal, thrust bearing, balance disc, and shaft. The 14× 14 design matrix is built. With the design matrix, the flow chart for the multi-source information coupled dynamics design method is obtained. A design case for a turbopump rotor dynamics is completed, and the major requirements are assessed. The results show the axiomatic design method for the high-speed turbopump rotor optimizes the dynamics design process and results.",
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Axiomatic design method for the rotor dynamics of the multi-source information coupled high-speed turbopump. / Zhang, Guoyuan; Zhao, Weigang; Yan, Xiutian; Wei, Junchao; Chen, Yao.

In: Jixie Gongcheng Xuebao/Journal of Mechanical Engineering, Vol. 51, No. 5, 01.01.2015, p. 47-55.

Research output: Contribution to journalArticle

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