초록

In this paper, we study the effect of cooling dehumidification process and wave heat exchanger on the reduction of white smoke and the efficiency by combination of heat exchanger with numerical analysis method. For this purpose, four types of heat exchange systems combined with 5-stage wave heat exchangers were selected to analyze the heat transfer characteristics of the heat exchange system in the winter condition. As the high temperature exhaust air flowed from HX 1 to HX 5, the final outlet temperatures of the four heatexchange systems(Cases 1, 2, 3 and 4) gradually decreased. The heat transfer rate and dehumidification amount were the best in Case 1 and Case 3, respectively. It can be seen that the heat flow in the heat exchanger is different according to the combination of the four kinds of wave heat exchanger and the fluid flow.

키워드

Drain(제습량), Heat exchanger(열교환기), Heat transfer(열전달), White smoke reduction(백연저감), Wave (파형)

참고문헌(6)open

  1. [보고서] Jeong, S. Y. / 2015 / An experimental study on the cooling tower plume prevention optimal design and performance improvements : 3705 ~ 3708

  2. [학술지] 왕쩐후안 / 2017 / 파형 열교환기의 열전달 및 유동특성에 관한 전산해석 연구 / 한국기계기술학회지 19 (4) : 452 ~ 457

  3. [학술지] Tyagi, S. K. / 2012 / Formation, potential and abatement of plume from wet cooling towers: A review / Renewable and Sustainable Energy Reviews 16 : 3409 ~ 3429

  4. [학술지] Douzereau, E. / 2008 / Application of a semi-spectral cloud water parameterization to cooling tower plumes simulation / Atmospheric Res. 90 : 87 ~ 90

  5. [학술지] Su, M. D. / 1999 / Numerical simulation of fluid flow and thermal performance of a dry-cooling tower under cross wind condition / J. of Wind Eng. and Industrial Aerodynamics 79 : 289 ~ 306

  6. [학술지] Kim, B. J. / 2005 / Numerical study on the performance analysis of plume abatement cooling tower with dry type heat exchanger / Int. J. of Aircond. and Ref. 13 : 61 ~ 70