Study on the performance of indirect air-cooled system influenced by environmental temperature

In order to explore the mechanism of the performance of Air-cooled system influenced by environmental temperature, indirect air-cooled towers with surface condensers in power plant were studied in this paper. Through a proper simplification, the geometric models of indirect air-cooled towers and oth...

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Bibliographic Details
Published inIOP conference series. Earth and environmental science Vol. 188; no. 1; pp. 12094 - 12102
Main Authors Wan, C, Chen, S L, Ma, T S, Chen, L, Lv, K, Jing, T
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 30.10.2018
Subjects
Air temperature
Computational fluid dynamics
Condensers
Condensers (liquefiers)
Cooling rate
Cooling towers
Field tests
Flow rates
Flow resistance
Flue gas
Fluid flow
Heat transfer
Mass flow rate
Mathematical models
Power plants
Radiators
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Summary:In order to explore the mechanism of the performance of Air-cooled system influenced by environmental temperature, indirect air-cooled towers with surface condensers in power plant were studied in this paper. Through a proper simplification, the geometric models of indirect air-cooled towers and other major buildings around which may affect the fluid flow were established. When it comes to the air-cooled towers, which were located in the central region of flow and heat transfer, the structure type of the towers and the radiators should be clearly presented. Flow resistance and heat transfer characteristics of radiators were correctly and objectively taken into account, the reliability of which was verified by field test. Numerical simulation study on the thermal performance of the indirect air-cooled system with surface condensers was conducted by creating corresponding mathematical and physical models on the condition of designed wind director and velocity. At the same time, the thermal performance of indirect air-cooled towers under different environmental temperature was studied. The results showed that, the volume flow rate of air into the indirect cooling tower under different environmental temperature is basically unchanged. With temperature rising up, the density of air reduces, which leaded to a decrease on the mass flow rate of air into tower. Besides, the trends and changing laws of performance parameters from the level of segments and the tower are achieved. What's more, the flow traces of air and flue gas in towers were basically similar which were clearly divided by a temperature line, but the two flows always melt into a whole one at the export of towers. The conclusions would be of guide significance to the optimal operation and design of indirect air-cooled system.
ISSN:1755-1307
1755-1315
1755-1315
DOI:10.1088/1755-1315/188/1/012094