According to comprehensive research using government incident databases, about 8 million gallons of petroleum releases were reported as a result of Katrina hitting the U.S. Gulf Coast in 2005, nearly 75 percent of the total volume of the 1989 Exxon Valdez oil spill in Alaska. The releases were largely due to storage tank failure and the shut down and restart of production processes.
The study "Petroleum and Hazardous Material Releases from Industrial Facilities Associated with Hurricane Katrina" appears in the April issue of Risk Analysis published by the Society for Risk Analysis.
Ten onshore releases of petroleum products were greater than 10,000 gallons each, primarily made up of crude oil that leaked from storage tanks. Fewer and smaller releases were reported from chemical and manufacturing industries handling hazardous materials. Of the releases from onshore facilities and storage tanks, 76 percent were petroleum, 18 percent were chemicals and six percent were natural gas. Many refineries and other facilities shut down in anticipation of large storms to minimize damage and prevent process upsets and are required to do so for safety purposes. However, shutdowns and restarts have the disadvantage of leading to potentially large emissions of volatile organic compounds, particulate matter, and other chemicals.
"More attention should be given to planning for shutdowns, including coordination with government entities responsible for evacuation, and to plant startup after an emergency shutdown in order to minimize burning off excess gas by flaring and other releases," according to the authors. For example, storage tanks can be filled with water and other steps can be taken to mitigate damage during severe storms and floods.
"Chemical accident prevention and emergency response regulations in the U.S. and elsewhere generally do not address the threat of natural hazards directly. While many companies are proactive in taking steps to mitigate natural hazard risk, others may make only the minimum effort require by statute," the authors conclude.
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