Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems
Апстракт
A computer code TEA-01 has been developed for the simulation and analysis of fast thermo-hydraulic transients in Thermal Power Systems. A model is based on non-stationary mass, momentum and energy balance equations for one-dimensional one-phase or equilibrium homogeneous two-phase fluid flow. Various types of discontinuities have been included. A model's solution has been based on the Method of Characteristics with three characteristic paths. This paper gives a brief description of the theoretical basis of the computer code TEA-01. The code has been verified against a variety of physical experimental data. Examples of applications and possible further extensions are presented. (A)
Извор:
International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September, 1990Издавач:
- IAHR Symposium, Yugoslavia
Scopus: 2-s2.0-85041153460
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Stevanović, Vladimir AU - Studović, M. PY - 1990 UR - https://machinery.mas.bg.ac.rs/handle/123456789/111 AB - A computer code TEA-01 has been developed for the simulation and analysis of fast thermo-hydraulic transients in Thermal Power Systems. A model is based on non-stationary mass, momentum and energy balance equations for one-dimensional one-phase or equilibrium homogeneous two-phase fluid flow. Various types of discontinuities have been included. A model's solution has been based on the Method of Characteristics with three characteristic paths. This paper gives a brief description of the theoretical basis of the computer code TEA-01. The code has been verified against a variety of physical experimental data. Examples of applications and possible further extensions are presented. (A) PB - IAHR Symposium, Yugoslavia C3 - International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September T1 - Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems UR - https://hdl.handle.net/21.15107/rcub_machinery_111 ER -
@conference{ author = "Stevanović, Vladimir and Studović, M.", year = "1990", abstract = "A computer code TEA-01 has been developed for the simulation and analysis of fast thermo-hydraulic transients in Thermal Power Systems. A model is based on non-stationary mass, momentum and energy balance equations for one-dimensional one-phase or equilibrium homogeneous two-phase fluid flow. Various types of discontinuities have been included. A model's solution has been based on the Method of Characteristics with three characteristic paths. This paper gives a brief description of the theoretical basis of the computer code TEA-01. The code has been verified against a variety of physical experimental data. Examples of applications and possible further extensions are presented. (A)", publisher = "IAHR Symposium, Yugoslavia", journal = "International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September", title = "Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems", url = "https://hdl.handle.net/21.15107/rcub_machinery_111" }
Stevanović, V.,& Studović, M.. (1990). Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems. in International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September IAHR Symposium, Yugoslavia.. https://hdl.handle.net/21.15107/rcub_machinery_111
Stevanović V, Studović M. Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems. in International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September. 1990;. https://hdl.handle.net/21.15107/rcub_machinery_111 .
Stevanović, Vladimir, Studović, M., "Computer code for the simulation of fast thermo-hydraulic transients in thermal power systems" in International Association for Hydraulic Research, IAHR 15th symposium Proceedings, Beograd, September (1990), https://hdl.handle.net/21.15107/rcub_machinery_111 .