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http://dx.doi.org/10.5389/KSAE.2014.56.1.081

Validation and Application of OpenFOAM for Prediction of Livestock Airborne Virus Spread  

Roh, Hyun-Seok ((주)넥스트폼)
Seo, Il-Hwan (서울대학교 그린바이오과학기술연구원 그린에코공학연구소)
Lee, In-Bok (서울대학교 농업생명과학대학 지역시스템공학과)
Publication Information
Journal of The Korean Society of Agricultural Engineers / v.56, no.1, 2014 , pp. 81-88 More about this Journal
Abstract
Accurate wind data is essential for predicting airborne spread of virus. OpenFOAM was used for computational fluid dynamics (CFD) simulation procedure which is under GNU GPL (General Public License). Using complex terrain, DEM (Digital Elevation Map) that was prepared from GIS information covering a research site is converted to a three dimensional surface mesh that is composed by quad and full hexahedral space meshes. Around this surface mesh, an extended computational domain volume was designed. Atmospheric flow boundary conditions were used at inlet and roughness height and was considered at terrain by using rough wall function. Two different wind conditions that was relatively stable during certain periods were compared in 3 different locations for validating the accuracy of the CFD computed solution. The result shows about 10 % of difference between the calculated result and measured data. This procedure can simulate a prediction of time-series data for airborne virus spread that can be used to make a web-based forecasting system of airborne virus spread.
Keywords
Airborne virus spread; CFD; livestock virus; OpenFOAM; wind-field;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 Hong, S. W., I. B. Lee, H. S. Hwang, I. H. Seo, J. P. Bitog, K. S. Kwon, J. I. Song, O. K. Moon, K. Kim, H. Ko, and S. Chung. 2011. CFD modelling of livestock odour dispersion over complex terrain, part II: Dispersion modelling. Biosystems Engineering 108(3): 265-279.   DOI   ScienceOn
2 Sumner, J., C. Masson, Y. Odemark, and M. Cehlin. 2010. OpenFOAM Simulation of atmospheric flow over complex terrain - performance in a blind comparison of CFD codes, 5th OpenFOAM Workshop.
3 Seo, I. H. 2012. CFD Application for estimation of airborne spread of HPAI (highly pathogenic avian influenza). International Conference of Agricultural Engineering (CIGR-AgEng2012). Valencia Conference Centre. July 8-12, 2012, Valencia, Spain. Paper number C-1260.
4 Seo I. H., I. B. Lee, O. K. Moon, S. W. Hong, H. S. Hwang, J. P. Bitog, K. S. Kwon, and K. Y. Kim. 2011. Aerodynamic approaches for the prediction of spread the HPAI (high pathogenic avian influenza) on aerosol. Journal of the Korean Society of Agricultural Engineers 53(1): 29-36 (in Korean).
5 Seo I. H., I. B. Lee, M. H. Shin, G. Y. Lee, H. S. Hwang, S. W. Hong, J. P. Bitog, J. I. Yoo, K. S. Kwon, Y. H. Kim, and T. Bartzanas. 2010. Numerical prediction of fugitive dust dispersion on reclaimed land in Korea. Transactions of the ASABE 53(3): 891-901.   DOI
6 Weber, T. P. and N. I. Stilianakis. 2008. Inactivation of influenza a viruses in the environment and modes of transmission: a critical review. Journal of Infection 57(5): 361-73.   DOI   ScienceOn