Abstract
Gas-gas heaters (GGHs) are used to reheat gases through desulfurization in coal-fired power plants to reduce low-temperature corrosion and white smoke. Wrinkled heating elements are installed inside the GGH to perform effective heat exchange. An optimization study of the heating element shape was conducted to reduce the differential pressure effectively and improve performance. An integrated analysis model was applied. Based on actual operational data, a computational fluid dynamic analysis was conducted on the L-type heating element and GGH system. The experiments applied the optimal latin hypercube sampling method, and numerical analysis was performed for each sample. Based on the response surface, the result of the sample was optimized through the pointer algorithm. For the integrated analysis model, validation was performed by comparison with the actual operational data, and the thermal-fluid characteristics of the heating element and GGH system were analyzed to set three parameters: plate angle, undulated angle, and pitch 1. From the optimization result, increases in the undulated angle and pitch 1 reduce the pressure drop by widening the heating element cross section. By increasing the plate angle, the heat transfer area is secured and the reduced heat transfer coefficient is compensated, improving the GGH performance.
Highlights
Studies on desulfurization technology have been actively carried out as the regulations on sulfur oxides emitted from coal-fired power plants have become stronger [1]
As in the porous media approach of the rotating regenerator studied by Ahmed Alhusseny and Turan, the rotor of the Gas-gas heaters (GGHs) system is assumed to be the porous media, and the input values of the porous elements are replaced by the results of the heating element analysis [24]
A grid test was performed on the heating element and the GGH system
Summary
Studies on desulfurization technology have been actively carried out as the regulations on sulfur oxides emitted from coal-fired power plants have become stronger [1]. To remove sulfur oxides effectively, a flue-gas desulfurization system (FGD) was installed in a coal-fired power plant, and related research is underway. The treated gas passing through the absorber has a low temperature and a high water content, resulting in corrosion of the flow duct and reduction of the flue-gas emission effect through the chimney. Rotary heat exchangers include the Ljungstrom type, where heat exchange takes place through a fixed duct and a rotor, and the Rothemuhle type, which exchanges heat between a stationary matrix rotor and a rotating hood [3]
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