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Investigation of Nonlinear Numerical Mathematical Model of a Multiple Shaft Gas Turbine Unit  

Kim, Soo-Yong (Korea Institute of Machinery & Materials (KIMM))
Valeri P. Kovalevsky (Korea Institute of Machinery & Materials (KIMM))
Publication Information
Journal of Mechanical Science and Technology / v.17, no.12, 2003 , pp. 2087-2098 More about this Journal
Abstract
The development of numerical mathematical model to calculate both the static and dynamic characteristics of a multi-shaft gas turbine consisting of a single combustion chamber, including advanced cycle components such as intercooler and regenerator is presented in this paper. The numerical mathematical model is based on the simplified assumptions that quasi-static characteristic of turbo-machine and injector is used, total pressure loss and heat transfer relation for static calculation neglecting fuel transport time delay can be employed. The supercharger power has a cubical relation to its rotating velocity. The accuracy of each calculation is confirmed by monitoring mass and energy balances with comparative calculations for different time steps of integration. The features of the studied gas turbine scheme are the starting device with compressed air volumes and injector's supercharging the air directly ahead of the combustion chamber.
Keywords
Nonlinear; Numerical Mathematical Modeling; Gas Turbine; Performance; Multi-shaft; Injector; Surge Margin;
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