Title: A coupled simulation and fuzzy-rule-based method for assessing health risks at a petroleum-contaminated site

Authors: Aili Yang, Guohe Huang, Xiaosheng Qin

Addresses: MOE Key Laboratory of Regional Energy Systems Optimization, S&C Academy of Energy and Environmental Research, North China Electric Power University, Beijing, 102206, China. ' MOE Key Laboratory of Regional Energy Systems Optimization, S&C Academy of Energy and Environmental Research, North China Electric Power University, Beijing, 102206, China. ' School of Civil and Environmental Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, Singapore

Abstract: Risk assessment of contaminated sites is crucial for evaluating adverse health impacts on local communities, and provides effective decision support for site-remediation practices. In this study, a coupled simulation and fuzzy-rule-based method was proposed for health risk assessment of groundwater contamination, and applied to a petroleum contaminated site. Benzene concentrations under two remediation scenarios (i.e., natural attenuation and pump-and-treat remediation) at different time intervals (1, 10, 20, 30, and 60 years later) were examined. The obtained benzene concentrations were then used to quantify the health risks through the excess lifetime cancer risk (ELCR) model. The study results indicated that the proposed method was useful for assessing potential human health effects when the groundwater was used for drinking water purpose and could effectively identify variation of risk levels under different remediation scenarios. The study also found that the dissolved oxygen was the most thermodynamically favoured electron accepter used in the biodegradation of petroleum hydrocarbons. When implementing remediation actions, we can inject oxygen to subsurface to strengthen aerobic biodegradation process (i.e., air sparging).

Keywords: petroleum contaminated sites; simulation; remediation; health risks; risk assessment; fuzzy logic; groundwater contamination; water pollution; benzene; natural attenuation; excess lifetime cancer risk; human health; drinking water; dissolved oxygen; petroleum hydrocarbons; aerobic biodegradation.

DOI: 10.1504/IJRAM.2011.041004

International Journal of Risk Assessment and Management, 2011 Vol.15 No.1, pp.66 - 78

Published online: 28 Feb 2015 *

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