冷却塔排烟风洞模拟

doi:10.11930.2015.6.128

中国电力 ›› 2015, Vol. 48 ›› Issue (6): 128-132.DOI: 10.11930.2015.6.128

冷却塔排烟风洞模拟

马进¹，姜益善¹，沈凡卉¹，田文鑫¹，徐祎¹，²

1. 国电环境保护研究院，江苏南京 210031；
2. 南京信息工程大学环境科学与工程学院，江苏南京 210044

收稿日期:2015-03-28 出版日期:2015-06-25 发布日期:2015-11-26
作者简介:马进（1966—），男，江苏扬州人，硕士，高级工程师，从事风洞实验及软硬件开发等工作。E-mail: Neprieia.majin@163.com

Wind Tunnel Simulation Experiment on Cooling Tower Emissions

MA Jin¹, JIANG Yishan¹, SHEN Fanhui¹, TIAN Wenxin¹, XU Yi¹, ²

1. State Power Environment Protection Research Institute, Nanjing 210031, China;
2. School of Environmental Science and Engineering, Nanjing University of Information Science & Technology, Nanjing 210044, China

Received:2015-03-28 Online:2015-06-25 Published:2015-11-26

摘要/Abstract

摘要： 将烟囱放入冷却塔内（烟塔合一）的电厂逐渐增多，因此有必要对其进行风洞模拟，以更好掌握塔内流场及相关情况。按照相似理论，给出了塔内烟气扩散过程主要关系式；通过风洞实验，模拟了烟塔合一塔内流场和烟气浓度，研究了不同环境风速下百叶窗全开、上下游百叶窗分别关闭对塔内流场的影响，给出了塔内烟气流场的形态及烟气中心漂移方向及漂移量，指出塔壁附近烟气浓度比烟道壁附近浓度低许多；研究了穿透风的发生条件和范围，模拟了一些抑制穿透风措施的效果；将北方某电厂流场实测结果与类似电厂风洞模拟结果进行简单比较，所得结果非常接近。研究结果表明，所给出的烟气在塔内扩散公式近似成立。

关键词: 冷却塔, 烟塔合一, 风洞模拟, 流场, 烟羽卷夹, 烟气扩散

Abstract: Since more and more power plants have moved their chimneys into cooling towers(i.e., gas emission from cooling towers), it is necessary to use wind tunnel to simulate the flow fields inside the cooling tower. In this paper, based on the similarity theory, the main gas diffusion equations are presented; by virtue of wind tunnel experiment, the flow field and gas density in the integrated cooling tower and chimney are simulated; to study how the flow fields are affected inside the tower regarding the cases with full shades open, only upstream shades closed and only downstream shades closed at different environmental wind velocities. The flow field style and the moving direction and volume of the flue gas are then obtained, and it is figured out that the flue gas density on the tower wall is much lower than that on the chimney wall. In addition, the emerging conditions and ranges of going-through wind are studied with some preventive actions being simulated. Finally, the measured results of a power plant are compared with the simulation results, which exhibits very close similarity. This simulation proves that the gas diffusion equations describing the flue gas in the cooling tower are tenable.

Key words: cooling tower, gas emission from cooling tower, wind tunnel simulation, flow field, gas plume involvement, gas diffusion

中图分类号:

X169

马进，姜益善，沈凡卉，田文鑫，徐祎，. 冷却塔排烟风洞模拟[J]. 中国电力, 2015, 48(6): 128-132.

MA Jin, JIANG Yishan, SHEN Fanhui, TIAN Wenxin, XU Yi,. Wind Tunnel Simulation Experiment on Cooling Tower Emissions[J]. Electric Power, 2015, 48(6): 128-132.

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参考文献

[1] 李庆，毛永清，张朝阳，等. “烟塔合一”脱硫系统设计无旁路的运行控制方式[J]. 中国电力，2009，42（2）：67－69．
LI Qing, MAO Yongqing, ZHANG Chaoyang, et al. Operation control mode desulfurization system with combining stack and cooling tower into one without bypass gas duct [J]. Electric Power, 2009, 42(2): 67-69.
[2] 刘璞，谈琪英，汤晓舒. “烟塔合一”、合并风机、脱硫无旁路烟道热电机组烟道系统设计[J]. 电力建设，2010，31（3）：74-78.
LIU Pu, TAN Qiying, TANG Xiaoshu. Flue-gas duct system design in co-generation power plant with stack-in cooling tower,fan combined, non-bypass FGD[J]. Electric Power Construction,2010, 31(3): 74-78.
[3] 曾德勇. 应用S/P模式评估自然通风冷却塔排放脱硫后烟气对大气环境的影响[J]. 中国电力，2006，39（2）：81－84．
ZENG Deyong. Evaluating the effects of post-FG demissions of natural draft cooling tower on the atmosphereenvironment based on S/P model [J]. Electric Power, 2006, 39(2): 81-84.
[4] 姚增权. 国家电力公司环境风洞实验室[J]. 国际电力，2001，2（4）：53-55.
YAO Zenquan. Environmental wind tunnel laboratory of state power corporation [J]. International Electric Power 2001, 2(4): 53-55.
[5] 唐革风，苏铭德，符松. 横向风影响下冷却塔内外流场的数值研究[J]. 空气动力学报，1997，15（3）：329－335.
TANG Gefeng, SU Mingde, FU Song. Numerical study on the inner and out flow field of the cooling tower under the crosswise wind [J]. Acta Aerodynamica Sinica, 1997, 15(3): 329-335.
[6] EPA. Experimental simulation of single and multiple cell cooling tower plumes, 600/7-77-070[R]. USA: EPA, 1977: 3-8.
[7] United States Department of energy. atmospheric science and power production[M]. Oak Ridge: Technical Information Center Office of Scientific and Technical Information United States Department of Energy, 1984: 327-337.
[8] 李宗凯，潘云仙，孙润桥. 空气污染气象学原理及应用[M]. 北京：气象出版社，1985：304－310．
[9] MA Jin. One method to set the input parameters of flue gas from cooling tower for austal 2000 in environmental impact assessment[C]//International Conference on Industrial Aerodynamics. Changsha, 2013: 33-137.
[10] 陈义珍，赵丹，柴发合，等. 烟塔合一排放参数及特征[J]. 环境科学与研究，2010，23（5）：543－547.
CHEN Yizhen, ZHAO Dan, CHAI Fahe, et al. Emission parameters experimentation and characteristics of cooling towers with flue gas injection[J]. Research of Environmental Sciences, 2010, 23(5): 543-547.

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冷却塔排烟风洞模拟

Wind Tunnel Simulation Experiment on Cooling Tower Emissions

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