A recent study indicates that underground fires in the Jharia coal fields may burn hotter and release more greenhouse gases than previously thought.
Researchers from the U.K. and India, including CSIR-CIMFR, documented collapsed structures stretching over 100 m vertically, venting hot gases.
The study focused on the Ena, Bastacolla, and Tisera collieries between 2018-2023, using numerical modeling and mineralogical analysis.
The global warming potential of Jharia’s fires is estimated at up to 748.72 MT of CO2-equivalent per year.
Detailed Insights:
Underground fires in Jharia are triggered by natural oxidation reactions when mining exposes coal to oxygen, leading to decades-long smoldering.
The study identified paralava and a unique fused rock called "birianiite" within the collapsed structures, indicating extremely high temperatures.
Computer simulations suggest that large, isolated collapse structures could reach temperatures approaching 4,000 C under certain conditions.
Fugitive emissions from uncontrolled coal fires like those in Jharia are often excluded from global greenhouse gas audits, highlighting a gap in monitoring.
The model's emissions estimate depends on assumptions about the extent of burning and excludes some real-world processes, which could alter the temperature estimate.
Scientific/Technical Concepts Involved:
Oxidation: A chemical reaction where a substance combines with oxygen, releasing heat.
Greenhouse Gases: Gases that trap heat in the atmosphere and contribute to global warming.
Global Warming Potential: A measure of how much heat a greenhouse gas traps in the atmosphere relative to carbon dioxide.