Impacts of flare emissions from an ethylene plant shutdown to regional air quality: Fid-Bau Portal

Impacts of flare emissions from an ethylene plant shutdown to regional air quality

Wang, Ziyuan / Wang, Sujing / Xu, Qiang / Ho, Thomas

Abstract Critical operations of chemical process industry (CPI) plants such as ethylene plant shutdowns could emit a huge amount of VOCs and NOx, which may result in localized and transient ozone pollution events. In this paper, a general methodology for studying dynamic ozone impacts associated with flare emissions from ethylene plant shutdowns has been developed. This multi-scale simulation study integrates process knowledge of plant shutdown emissions in terms of flow rate and speciation together with regional air-quality modeling to quantitatively investigate the sensitivity of ground-level ozone change due to an ethylene plant shutdown. The study shows the maximum hourly ozone increments can vary significantly by different plant locations and temporal factors including background ozone data and solar radiation intensity. It helps provide a cost-effective air-quality control strategy for industries by choosing the optimal starting time of plant shutdown operations in terms of minimizing the induced ozone impact (reduced from 34.1 ppb to 1.2 ppb in the performed case studies). This study provides valuable technical supports for both CPI and environmental policy makers on cost-effective air-quality controls in the future.

Highlights • Dynamic plant shutdown emissions are provided for accurate air-quality modeling. • Multi-scale modeling quantitatively studies O3 impacts from CPI operations. • O3 impacts from plant shutdown emissions vary by spatial and temporal factors. • Cost-effective emission and air-quality controls have been identified.