DiMIZA: A dispersion modeling based impact zone assessment of mercury (Hg) emissions from coal-fired power plants and risk evaluation for inhalation exposure
Karaca F. Kumisbek A. Inglezakis V.J. Azat S. Zhakiyenova A. Ormanova G. Guney M.
July 2021John Wiley and Sons Inc
Engineering Reports
2021#3Issue 7
Coal-fired combined heat and power plants (CHPPs) serving large districts are among the major sources of mercury (Hg) emissions globally, including Central Asia. Most CHPPs reside on the outskirts of urban areas, thus creating risk zones. The impact of atmospheric Hg levels on health is complex to establish due to the site-specific nature of the relationship between CHPP emissions and hotspots (i.e., localized areas where Hg concentrations greatly exceed its background value). However, a methodological identification of “emission impact zones” for atmospheric Hg emissions from CHPPs with potential adverse public health outcomes has not yet been fully studied. The present work suggests an easy-to-use and cost-free impact zone identification method based on HYSPLIT dispersion modeling for atmospheric Hg emissions from CHPPs. The dispersion modeling based impact zone assessment, DiMIZA, merges short-term dispersion runs (e.g., hourly) into long-term emission impacts (e.g., yearly), which allows to identify the source impact zones. To perform a case study using the suggested method, a CHPP plant in Nur-Sultan (capital of Kazakhstan) was selected. First, traditional ad-hoc measurements were performed to identify the level of dispersions at ground level in different atmospheric stability characteristics. Then, HYSPLIT dispersion model was run for the same days and times of those particular periods when the field measurements were performed. The model results were evaluated via a comparison with the ground measurements and assessed for their atmospheric stability and diel conditions. Due to different emission loads in heating and non-heating periods, two separate pairs of impact zone maps were generated, and public Hg exposure health risks (acute and chronic) were assessed.
air pollution , atmospheric modeling , atmospheric pollution , coal combustion , human health , HYSPLIT , public health , risk characterization
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Environmental Science and Technology Group (ESTg), Department of Civil and Environmental Engineering, Nazarbayev University, Nur-Sultan, Kazakhstan
The Environment & Resource Efficiency Cluster (EREC), Nazarbayev University, Nur-Sultan, Kazakhstan
Chemical and Process Engineering, University of Strathclyde, Glasgow, United Kingdom
Al-Farabi Kazakh National University, Almaty, Kazakhstan
Environmental Science and Technology Group (ESTg)
The Environment & Resource Efficiency Cluster (EREC)
Chemical and Process Engineering
Al-Farabi Kazakh National University
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