Simulation Research about Impacts of Flue Gas on Surrounding Buildings

Zi Fang Wang; Bing Xia; Ting Xue; Lian Sheng Liu; Jin Xiang Wu; En Yu Wang; Xiang Gou

doi:10.4028/www.scientific.net/AMM.694.514

Paper Titles

Combustion Experimental Study of Reed Black Liquor (RBL) Droplets and Particles in Fluidized Bed
p.494

Thermodynamic Investigation on SO₃ Distribution in Oxy-Fuel Combustion
p.498

Studies on Scroll Compressor Noise Improvement
p.504

A Study on Estimating Gasoline Engine Radiated Noise Based on Surface Vibration Measurement
p.509

Simulation Research about Impacts of Flue Gas on Surrounding Buildings
p.514

An Analysis of the Factors Influencing Energy Demand in China Based on Cointegration Theory
p.523

Analysis of Energy Consumption Carbon Emissions in Hunan Province Based on Industrial Structure
p.528

Analysis of Water Sustainable Utilization in Changsha City Based on Water Footprint Theory
p.532

Energy Analysis and Sunshade Strategy Research of Passive Public Buildings
p.536

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 694Simulation Research about Impacts of Flue Gas on...

Simulation Research about Impacts of Flue Gas on Surrounding Buildings

Abstract:

The revamping project of turning coal-burning boiler into gas-fired boiler for urban heat supply in Tianjin causes high vapor content in flue gas, which has great influences on the day lighting of surrounding buildings. In this paper, CFD software is introduced to simulate the distributions of NO_x, SO₂ and vapor in space after leaving the chimney and their impacts on surrounding buildings with the effect of the atmosphere. Result shows that flue gas discharged from the chimney with the height of 30 m has significant impacts on the surrounding buildings.

You might also be interested in these eBooks

Engineering and Technological Solutions for Sustainable Development

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 694)

Pages:

514-519

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.694.514

Citation:

Cite this paper

Online since:

November 2014

Authors:

Zi Fang Wang, Bing Xia, Ting Xue, Lian Sheng Liu, Jin Xiang Wu, En Yu Wang, Xiang Gou*

Keywords:

Flue Gas, NO_x, Simulation, SO₂, Vapor

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] A. Riddle, D. Caruthers, A. Sharpe, C. McHugh, J. Stocker, Comparisons between FLUENT and ADMS for atmospheric dispersion modeling, Atmos. Environ. 38 (2004) 1029–1038.

DOI: 10.1016/j.atmosenv.2003.10.052

Google Scholar

[2] L. Li, F. Hu, X. L. Cheng, H.H. Han, An application of Fluent on the study of the atmospheric environment in urban streets, Journal of the Graduate School of Chinese Academy of Sciences. 21 (2004) 476-480.

Google Scholar

[3] Y. Jin, W. G. Zhou, Y. J. Ruan, CFD numerical simulation of gas diffusion, Journal of Safety and Environment. 26 (2002) 21-23.

Google Scholar

[4] P. Liang, L.L. Liu, X. F. Long, Numerical simulation of plume transmission and dispersion in power plant, Journal of South China University of Technology. 36 (2008) 114-123.

Google Scholar

[5] P. Liu, L. W. Yuan, S.W. Xu, Simulation of continuous point-source puff dispersion, Environment Science and Technology. 174 (2006) 21-22.

Google Scholar

[6] Z. Z. Xu, Y. H. Xiao, Q. Zhan, T. Zhao, Assessment of smoke diffusion from point sources on spatial distribution of applications in atmospheric pollution, Engineering. 4 (1997) 36-41.

Google Scholar

[7] R.G. Du, B. Qi, H.H. Guo, Application of FLUENT software in air pollution diffusion, Meteorological Hydrological and Marine Instruments. 14(2007) 14-18.

Google Scholar

[8] Y. N. Tan, Treatment of harmful components in flue gas of gas-fired boiler, North Environment. 12 (2002) 14-17.

Google Scholar