发电技术 (Feb 2023)

Research and Application of Numerical Simulation for Selective Catalytic Reduction Denitration of 9F Gas Turbine

  • ZHANG Hongyi,
  • QU Litao

DOI
https://doi.org/10.12096/j.2096-4528.pgt.21062
Journal volume & issue
Vol. 44, no. 1
pp. 78 – 84

Abstract

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Taking a 9F gas turbine waste heat boiler as the research object, the numerical simulation of gas flow field from gas turbine outlet flue to catalyst layer was carried out, the flue gas flow field of single layer catalyst, two-layer catalyst and two-layer catalyst+uniform plate was obtained. The results show that the expansion flue in front of the first-layer heat exchanger of the original structure has a short distance and a large expansion angle. When the high-speed swirling flue gas at the outlet of the gas turbine enters the large-area static basin within a short distance, it is too late to evenly scour the entire large cross-section and dissipate the inertial swirling flow, resulting in the poor uniformity of flue gas flow field at the inlet section of the first layer of heat exchanger. The flow field distribution after adding one layer of catalyst is basically the same as that of single layer catalyst, and the uniformity of flow field distribution at the inlet of the first layer catalyst is slightly better than that of single layer catalyst when adding two layers of catalyst. This is because adding one layer of catalyst is equivalent to adding one layer of flow blocking element, which has a blocking effect on the flue gas. The flow field uniformity at the inlet of the first layer heat exchanger can be improved by adding a deflector in the inlet flue, and the cross-sectional velocity Cv decreases to 21.3%, which indicates that the deflector can improve the flow field distribution in the subsequent flue.

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