Waste fires in and research forefronts in early detection of waste fires
Keywords:
waste fires, smoldering fires, electrical resistivity tomography, fire detectionAbstract
In recent years, waste fires have emerged as a serious dilemma for waste management industry at the global level. Incidents of wase fires are common at all stages of waste recycling chain (collection, transportation, middle storage, sorting sites, recovery & recycling plants, wase to energy plants, and landfills) and have grave implications for business, employees, firefighters, society, and environment. Currently, the issue of waste fires is not properly understood. Statistics shows that in Sweden and in USA the cause of half of the waste fire incidents are not known.
Most waste fires are initially subsurface and are of smoldering in nature, which turns into flaming conditions as soon the smoldering front extends close to the surface of pile of the stored material. It is learned from past incidents and from experimental studies that the waste fires spread very rapidly, once ignited. In most waste fire incidents, firefighting operation is very challenging as firefighters are exposed to dangerous chemicals and work under reduced visibility. An early detection (in smoldering stage) could save precious lives, resources and can reduce the environmental burden of waste fire incidents. A key limitation in early detection of waste fires is however that the existing fire detection technologies are effective only for flaming fires and in past, less research was devoted to early detection of smoldering fires.
A first attempt is made to employ electrical resistivity tomography (ERT) for early detection of smoldering fires. ERT is a non-invasive technique in the sense that the detectors need not to be immersed inside the stored pile of material, instead the electrodes can be placed on the surface of the material to be investigated or monitored. The results from initial laboratory scale tests suggest that ERT monitoring can used successfully as an indicator for identifying the smoldering hotspots in the stored material.
Acknowledgement: Åforsk grant 21-106 funded the experiments
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Copyright (c) 2022 Asim Ibrahim Muhammad, Afza Butt Nabeel, Simon Rejkjær, Dan Madsen, Torleif Dahlin, Håkan Frantzich, Konrad Wilkens Flecknoe-Brown, Mattis Eggert, Magnus Ingelsten, Thomas Günther, William Hogland
This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.