Mining Project: Geologic Parameters for Identifying Areas of Increased Methane and Mining-induced Seismicity at Deep Coal Mines

Principal Investigators	Mark Van Dyke - Request information Zoheir Khademian - Request information
Start Date	10/1/2022
Objective	This pilot project is a one-year effort to evaluate the geological variables linked to high methane concentrations and increased mining-induced seismicity in underground coal mines. The project will determine what lithological and mining conditions led to higher methane production at a case study site in 2020 and create a map to highlight where higher methane concentrations could exist within the future mining area. This project will assess geological and mining conditions that led to anomalous seismic events in 2016 at the case study site to help develop methodologies for generating seismic potential maps for underground coal mines. Both high methane and seismic activity may create possible hazardous mining conditions that could be avoided if early warning methods could alert miners prior to mining certain areas.
Topic Area	Geologic Characterization

Research Summary

Approach

The research will combine field studies, numerical modeling, and data analysis. Research will be conducted in various areas of the Buchanan mine, Virginia, where excess methane production and destructive seismic activities have been experienced. To understand conditions leading to high methane concentrations, areas with excess methane production will be compared to areas with standard methane production to determine their geological differences.

Seismicity will be modeled in panels that have relatively low and high levels of seismic activities to calibrate the model response to seismic hazard against historic seismic data. The models will be compared geologically to determine the lithology differences that lead to a panel being high or low in relation to seismic risk.

Milestones and Accomplishments

Description	Audience	Year
Produce a methane forecasting map that highlights potential high methane zones in future mining areas.	Mine operators and academia	2023
Construct a 3DEC model and evaluate the seismic potential results of new panel designs.	Academia and mine managers	2023
Produce a model with calibrated parameters capable of distinguishing areas of low potential from high potential in relation to seismic hazard.	Academia and mine managers	2023

Planned Impacts and Outcomes

The pilot project will examine the geological conditions of the high methane area of the Buchanan mine and compare these conditions to other areas that have not experienced such high methane production. From this data, a map will be produced to indicate other possible areas of high methane production in future mining areas. From historic seismic data, methodologies and numerical models will be generated to replicate the seismic potentials in previous districts. The methodologies and calibrated models can be used to develop seismic forecasting map for different mine layouts. The findings for assessing high-methane-concentration and high-seismic-activity conditions may potentially be applied to mines with similar geology such as longwall mines in Alabama and Utah, but further research is required for generalizing the developed methodologies to various geology and mining conditions.

Outputs

Outputs will be in the form of peer-reviewed journal articles, conference proceedings, and technical presentations related to creating a methane forecasting map by using geological parameters and creating the framework for developing a seismic forecasting map for the underground coal mine.

Supporting Visual

NIOSH employees operating a high-definition borescope to record the lithology in the mine roof prior to installing a roof extensometer.

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