Research About Software Verification and Validation of Control and Protection System for Chinese Heavy-Duty Gas Turbine

In this paper, the trailing edge film cooling flow field of a heavy duty gas turbine cascade has been studied by central difference scheme and multi-block grid technique. The research is based on the three-dimensional N-S equation solver. By way of analysis of the temperature field, the distribution of profile pressure, and the distribution of film-cooling adiabatic effectiveness in the region of trailing edge with different cool air injection mass and different angles, it is found that the impact on the film-cooling adiabatic effectiveness is slightly by changing the injection mass. The distribution of profile pressure dropped intensely at the pressure side near the injection holes line with the large mass cooling air. The cooling effect is good in the region of trailing edge while the injection air is along the direction of stream.

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The Role of Software Verification and Validation in Software Development Process

IETE Technical Review ◽

10.1080/02564602.2001.11416938 ◽

2001 ◽

Vol 18 (1) ◽

pp. 23-26 ◽

Cited By ~ 1

Author(s):

P Sujatha ◽

G Vijaya Sankar ◽

A Sarvottama Rao ◽

T Satyanarayana

Keyword(s):

Software Development ◽

Software Verification ◽

Development Process ◽

Verification And Validation ◽

Software Development Process ◽

Software Verification And Validation

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Erratum: “The Design and Development of an Advanced Heavy-Duty Gas Turbine” (Journal of Engineering for Gas Turbines and Power, 1988, 110, pp. 243–250)

Journal of Engineering for Gas Turbines and Power ◽

10.1115/1.3240171 ◽

1988 ◽

Vol 110 (3) ◽

pp. 562-562

Author(s):

D. E. Brandt

Keyword(s):

Gas Turbine ◽

Gas Turbines ◽

Heavy Duty ◽

Design And Development ◽

Heavy Duty Gas Turbine

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Unbalance Response Analysis of a Heavy Duty Gas Turbine-Generator with Rigid Coupling Offset

Proceedings of the 9th IFToMM International Conference on Rotor Dynamics - Mechanisms and Machine Science ◽

10.1007/978-3-319-06590-8_61 ◽

2015 ◽

pp. 745-756

Author(s):

Jin Woong Ha ◽

Dae Seok Jung

Keyword(s):

Gas Turbine ◽

Response Analysis ◽

Heavy Duty ◽

Turbine Generator ◽

Unbalance Response ◽

Heavy Duty Gas Turbine

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Aerodynamic Design and Testing of an Improved 1st Stage Compressor Rotor for a Heavy Duty Gas Turbine

Volume 2: Coal, Biomass and Alternative Fuels; Combustion and Fuels; Oil and Gas Applications; Cycle Innovations ◽

10.1115/81-gt-135 ◽

1981 ◽

Author(s):

I. Ispas ◽

H. J. Zollinger

Keyword(s):

Gas Turbine ◽

Rotor Blade ◽

Aerodynamic Design ◽

Heavy Duty ◽

High Loss ◽

Compressor Rotor ◽

Performance Map ◽

Computer Codes ◽

Heavy Duty Gas Turbine ◽

Design And Testing

To evaluate the potential of the compressor of Sulzer’s Typ 3 gas turbine, a series of engine tests was analyzed with two computer codes. The comparison between measured and calculated performance map are given in the paper. The design goal was to find modifications, which can be applied easily to already operating engines. The simplest option-increase of shaft speed with the existing blades-would have caused high loss due to increased tip Mach number. The calculation revealed, that a newly designed first rotor blade is an appropriate modification to increase massflow and efficiency. No further change is required, because the calculations indicate, that all subsequent stages operate at near optimum incidence. The calculations were confirmed experimentally. The paper presents the new rotor blade and its influence on the compressor calculated and measured performance.

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Experience With Large Heavy-Duty Gas Turbine Rotors

Volume 4: Manufacturing Materials and Metallurgy; Ceramics; Structures and Dynamics; Controls, Diagnostics and Instrumentation; Education; Process Industries; General ◽

10.1115/81-gt-181 ◽

1981 ◽

Cited By ~ 2

Author(s):

O. R. Schmoch ◽

B. Deblon

Keyword(s):

Gas Turbine ◽

Gas Turbines ◽

Turbine Rotor ◽

Strength Properties ◽

Operating Conditions ◽

Material Strength ◽

Heavy Duty ◽

Turbine Rotors ◽

Heavy Duty Gas Turbine ◽

Response To Temperature

The peripheral speeds of the rotors of large heavy-duty gas turbines have reached levels which place extremely high demands on material strength properties. The particular requirements of gas turbine rotors, as a result of the cycle, operating conditions and the ensuing overall concepts, have led different gas turbine manufacturers to produce special structural designs to resolve these problems. In this connection, a report is given here on a gas turbine rotor consisting of separate discs which are held together by a center bolt and mutually centered by radial serrations in a manner permitting expansion and contraction in response to temperature changges. In particular, the experience gained in the manufacture, operation and servicing are discussed.

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