Numerical study on bi-molecular reaction in turbulent flow field with two-dimensional test room using les: Development of prediction system for micro-scale atmospheric pollution part 1

Hideki Kikumoto; Ryozo Ooka; Hong Huang; Takeaki Katsuki; Kazuhide Ito

doi:10.3130/aije.75.629

Numerical study on bi-molecular reaction in turbulent flow field with two-dimensional test room using les: Development of prediction system for micro-scale atmospheric pollution part 1

Hideki Kikumoto, Ryozo Ooka, Hong Huang, Takeaki Katsuki, Kazuhide Ito

Environmental Thermal Engineering

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Abstract

The contaminated substances in atmosphere are chemically reactive, and their reactions play main roles in the geneses of atmospheric pollutions. In this study, Large-Eddy Simulations (LES) with a two-dimensional enclosed region are carried out to investigate the influence of chemical reactions in turbulent flow fields. The bi-molecular reactions of Ozone with Limonene or Ozone with nitric monoxide, and wall deposition phenomena of these matters are modeled into the numerical analyses. The calculated results are consistent with experimental data. It is also revealed that the time fluctuation intensities of reactants concentration and their cross-correlations affect the mean reaction rates.

Original language	English
Pages (from-to)	629-636
Number of pages	8
Journal	Journal of Environmental Engineering (Japan)
Volume	75
Issue number	653
DOIs	https://doi.org/10.3130/aije.75.629
Publication status	Published - Jul 2010

All Science Journal Classification (ASJC) codes

Environmental Engineering

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10.3130/aije.75.629

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Numerical study on bi-molecular reaction in turbulent flow field with two-dimensional test room using les: Development of prediction system for micro-scale atmospheric pollution part 1. / Kikumoto, Hideki; Ooka, Ryozo; Huang, Hong et al.
In: Journal of Environmental Engineering (Japan), Vol. 75, No. 653, 07.2010, p. 629-636.

Research output: Contribution to journal › Article › peer-review

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Numerical study on bi-molecular reaction in turbulent flow field with two-dimensional test room using les: Development of prediction system for micro-scale atmospheric pollution part 1

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