Advanced search
Publication Cover
Journal of International Council on Electrical Engineering Volume 8, 2018 - Issue 1
Journal homepage
696
Views
0
CrossRef citations to date
0
Altmetric
Articles

An empirical study on environmental impact of natural draft cooling tower with flue gas injection

Shenshen SuElectric Power Planning & Engineering Institute, Beijing, China
,
Renfeng ZhangNorthwest Electric Power Design Institute Co., Ltd. of China Power Engineering Consulting Group, Shaanxi Xi’an, ChinaCorrespondence[email protected]
,
JiJun MaNorthwest Electric Power Design Institute Co., Ltd. of China Power Engineering Consulting Group, Shaanxi Xi’an, ChinaORCID Iconhttp://orcid.org/0000-0002-5665-966X
ORCID Icon,
Yongping XieNorthwest Electric Power Design Institute Co., Ltd. of China Power Engineering Consulting Group, Shaanxi Xi’an, China
,
Xijin SunNorthwest Electric Power Design Institute Co., Ltd. of China Power Engineering Consulting Group, Shaanxi Xi’an, China
&
Jianhua HanHuaneng Shaanxi Qinling Mountains Power Generation Co., Ltd., Shaanxi Huayin, China
Pages 44-50 | Received 25 Nov 2017, Accepted 27 Nov 2017, Published online: 16 May 2018

References

  • Tang YL. Application of technology for ‘combining stack and cooling tower into one’ in coal-fired power plants [J]. Electr Power Constr. 2005;26(2):11–12.
  • Lin Y. The technology characteristics of natural draft cooling tower with flue gas injection and its engineering data [J]. Res Environ Sci. 2005;18(1):35–39.
  • Yao ZQ. Transmission and diffusion of plume in thermal power plant [M]. Beijing: China Electric Power Press; 2003.
  • Nielinger J, Kost WJ, Braun F, et a1. Atmospheric dispersion modeling within water vapour plumes of cooling towers [C]. Proceedings of the 1 lth International Conference on Harmonisation within Atmospheric Dispersion Modelling for Regulatory Purposes. Cambridge, 2007. p. 229–233.
  • Schatzmann M, Policastro AJ. An advanced integral model for cooling tower plume dispersion [J]. Atmos Environ. 1984;18:663–674.10.1016/0004-6981(84)90253-1
  • Schatymann M. Entwicklung und anwendung eines kuhlturm schwadenmodells [M]. Berlin: E SchVerlag; 1984.
  • Verein Deutscher Ingenieure. VDI 3782 Part 3 Dispersion of air pollutants in the atmosphere determination of plume rise [S]. Berlin: Beuth Verlag GmbH; 1985.
  • Verein Deutscher Ingenieure. VDI 3784 Part 2, Environmental meteorology: dispersion modelling for the discharge of flue gas via cooling towers [S]. Berlin: Beuth Verlag GmbH; 1990.
  • Verein Deutscher Ingenieure. VDI 3945 Part 3, Environmental meteorology atmospheric dispersion models particle model [S]. Berlin: Beuth Verlag GmbH; 2000.
  • Mo H, Liu SM. Existing question and recommendation for the technological evaluation of natural draft cooling towers (NDCT) with flue gas injection [J]. Electr Power Environ Prot. 2009;25(3):48–50.
  • Mo H. Discussion on atmospheric environment protection zone in environmental impact assessment about technology of natural draft cooling towers with flue gas injection [J]. Environ Prot Sci. 2010;36(6):39–41.
  • Cui KQ, Li H. The environmental effect of natural draft cooling towers with flue gas injection in a burning coal plant, Part I: the parallel calculation of plume rise [J]. Res Environ Sci. 2005;18(1):27–31.
  • Zhou Y, Wang HY, Li ZQ, et al. Applicability of Austal 2000 in Atmospheric Impact Assessment for ‘Cooling Tower with Flue Gas Injection’ Project in China [J]. Adm Tech Environ Monit. 2012;24(1):56–61.
  • Ma ZQ, Wang L, Zhu JH, et al. Analysis of the atmospheric environmental impact of a stack-cooling tower project for a 2 × 300 MW generating unit [J]. Res Environ Sci. 2012;25(12):1416–1421.
  • liu YC, Yang HB, Wang HY, et al. Uplifted height of flue gas from cooling tower and its pollutant concentration [J]. J Meteorol Environ. 2010;26(1):40–44.
  • Zhao H. Sensitivity analysis of landing concentration using AUSTAL2000 [J]. China Electr Power (Technol). 2014;10:127–129.
  • Liang D. Environmental impact analysis of natural draft cooling tower with flue gas injection in coal-fired power plant [D]. Beijing: North China Electric Power University; 2008.
  • Yang JX. The analysis about the plume rise of the gas discharged from cooling tower [J]. Electr Power Technol Environ Prot. 2010;26(1):23–24.
  • Cui KQ, Cai FH. The environmental effect of natural draft cooling towers with flue gas injection in a burning coal plant. Part II: the evaluation of environment effect for the case at Huaneng Beijing thermoelectric plant [J]. Res Environ Sci. 2005;18(1):31–34.
  • Zhang RF, Wei Y, Yang L. Environmental impact comparison of stack-in-tower configuration and a stand-alone chimney in coal-fired power plant – taking Baoji No.2 power plant for example [J]. Electr Power Environ Prot. 2012;28(2):1–3.
  • Ma J, Tain WX, Jiang YS. Parameters and the rise height of flue gas at the exit of the cooling tower [J]. Environ Sci Technol. 2014;37(120):475–478.
  • Chen KH, Song C, Li Q. Numerical analysis of plume rise of cooling tower with flue gas injection [J]. Power Syst Eng. 2008;24(2):12–14.
  • Zhang LN, Ma Z, Zhou Y, et al. Study on the diffusing of flue gas pollutant from natural draft cooling tower with flue gas injection using numerical wind tunnel mode [J]. Environ Pollut Control. 2013;35(4):67–74.
  • Zhang LN, Zhao L, Chen L, et al. Comparative study on flue gas discharge by natural draft cooling tower with flue gas injection between numerical wind tunnel mode and physical wind tunnel [J]. Environ Sci Technol. 2013;36(5):141–146.
  • Chen YZ, Zhao D, Chai FH, et al. Emission parameters experimentation and characteristics of cooling towers with flue gas injection [J]. Res Environ Sci. 2010;23(5):543–547.
  • Zhao D, Chen YZ, Chai FH, et al. Atmospheric diffusion experiments with tracer gas SF6 on cooling towers with flue gas injection emission [J]. Res Environ Sci. 2010;23(5):548–554.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.