Rapid on-site identification of hazardous organic compounds at fire scenes using person-portable gas chromatography-mass spectrometry (GC-MS). Part 2: Water sampling and analysis

Building and factory fires pose a great risk to human and environmental health, due to the release of hazardous by-products of combustion. These hazardous compounds can dissipate into the environment through fire water run-off, and the impact can be immediate or chronic. Current laboratory-based methods do not report hazardous compounds released from a fire scene at the time and location of the event. Reporting of results is often delayed due to the complexities and logistics of laboratory-based sampling and analysis. These delays pose a risk to the health and wellbeing of the environment and exposed community. Recent developments in person-portable instrumentation have the potential to provide rapid analysis of samples in the field. A portable gas chromatograph-mass spectrometer (GC-MS) was evaluated for the on-site analysis of water samples for the identification of hazardous organic compounds at fire scenes. The portable GC-MS was capable of detecting and identifying a range of volatile and semi-volatile organic compounds in fire water run-off, and can be used in conjunction with conventional laboratory analysis methods for a comprehensive understanding of hazardous organics released at fire scenes. Deployment of this portable instrumentation provides first responders with a rapid, on-site screening tool to appropriately manage the run-off water from firefighting activities. This ensures that environmental and human health is proactively protected

Rapid on-site identification of hazardous organic compounds at fire scenes using person-portable gas chromatography-mass spectrometry (GC-MS). Part 1: Air sampling and analysis

Recent advancements in person-portable instrumentation have resulted in the potential to provide contemporaneous results through rapid in-field analyses. These technologies can be utilised in emergency response scenarios to aid first responders in appropriate site risk assessment and management. Large metropolitan fires can pose great risk to human and environmental health due to the rapid release of hazardous compounds into the atmosphere. Understanding the release of these hazardous organics is critical in understanding their associated risks. Person-portable gas chromatography-mass spectrometry (GC-MS) was evaluated for its potential to provide rapid on-site analysis for real-time monitoring of hazardous organic compounds at fire scenes. Air sampling and analysis methods were developed for scenes of this nature. Controlled field testing demonstrated that the portable GC-MS was able to provide preliminary analytical results on the volatile organic compounds present in air samples collected from both active and extinguished fires. In-field results were confirmed using conventional laboratory-based air sampling and analysis procedures. The deployment of portable instrumentation could provide first responders with a rapid on-site assessment tool for the appropriate management of scenes, thereby ensuring environmental and human health is proactively protected and scientifically informed decisions are made for the provision of timely advice to stakeholders

Person-portable equipment in environmental forensic investigations : application to fire scenes

Environmental forensic investigations can be complex because pollutants are often not visible, making it difficult to determine the types of pollutants and their source. Emergency scenarios require immediate action to protect environmental and/or human health, and having limited knowledge of these pollutants makes this complicated. Recent advancements in field-portable instrumentation pave the way for rapid on-site analyses for real-time monitoring of hazardous compounds at incident sites, thereby providing valuable intelligence to direct subsequent actions. Fires can pose significant risk to human and/or environmental health through the release of hazardous compounds in smoke or run-off water from firefighting activities. Monitoring the release of hazardous organic compounds from fires typically requires complex sampling and laboratory-based protocols. Results from such protocols are not immediately available to first responders. Site risk assessment and management would therefore benefit from accurate in-field identification of the release of hazardous organic compounds. A portable Gas Chromatograph – Mass Spectrometer (GC-MS) was evaluated for the identification of hazardous organic compounds in air and water samples at fire scenes. Preliminary results demonstrated that deployment of such instrumentation has the potential to provide first responders with a rapid on-site assessment tool, allowing for more proactive protection of environmental and human health