A probabilistic assessment of enhanced coal mine methane drainage (ECMM) as a fugitive emission reduction strategy for open cut coal mines

Enhanced coal mine methane drainage (ECMM) is a strategy that has been proposed for reducing fugitive emissions during coal mining. This paper presents a methodology for incorporating risk from uncertainty in reservoir properties and economic parameters in a techno-economic assessment of enhanced ga...

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Bibliographic Details
Published in:International journal of coal geology 2014-09, Vol.131, p.288-303
Main Authors: Sander, R., Connell, L.D.
Format: Article
Language:English
Subjects:
CMM
Coal
Coal mine drainage
Earth sciences
Earth, ocean, space
ECBM
Economics
Enhanced gas recovery
Exact sciences and technology
Hydrocarbons
Monte Carlo simulation
Sedimentary rocks
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Summary:Enhanced coal mine methane drainage (ECMM) is a strategy that has been proposed for reducing fugitive emissions during coal mining. This paper presents a methodology for incorporating risk from uncertainty in reservoir properties and economic parameters in a techno-economic assessment of enhanced gas drainage of coal mines. Conventional economic assessments are deterministic and do not provide information on the likelihood of outcomes. Incorporating uncertainty into the analysis means that the probability of specific outcomes can be identified, thus supporting investment decision making. The methodology is demonstrated by means of a representative case study which evaluates the probabilistic economics of enhanced drainage of eastern Australian open cut mines. The approach entails coupling of a reservoir simulator (SIMEDWin) with a techno-economic model. Case specific findings indicate that for coal properties typical of eastern Australian coals the probability of a commercial ECMM project is 33% and the average net present value is A$0.005/t (US$0.00425/t applying a long term exchange rate of US$0.85/A$), though this result is skewed by the technical difficulties encountered. The study demonstrates that the minimum reservoir property requirements for a successful project are sensitive to the CO2 penalty. However, the results indicate that even in the absence of a CO2 penalty ECMM can be an economically viable emission reduction strategy for reservoir permeabilities as low as 0.14mD or a gas content of more than 3.8m3/t. •A methodology is presented incorporating uncertainty in the assessment of ECMM.•The methodology couples reservoir simulation of ECMM with a techno-economic model.•The methodology was applied to a case study of ECMM from eastern Australian coals.•Minimum requirements for key reservoir properties were identified for economic ECMM.
ISSN:0166-5162
1872-7840
DOI:10.1016/j.coal.2014.06.016