Abstract
Increasing emissions from mining areas and a high global warming potential of methane have caused gas management to become a vital challenge. At the same time, it provides the opportunity to obtain economic benefits. In addition, the use of combined heat and power (CHP) in the case of coalbed methane combustion enables much more efficient use of this fuel. The article analyses the possibility of electricity production using gas engines fueled with methane captured from the Budryk coal mine in Poland. The basic issue concerning the energy production from coalbed methane is the continuity of supply, which is to ensure the required amount and concentration of the gas mixture for combustion. Hence, the reliability of supply for electricity production is of key importance. The analysis included the basic characterization of both the daily and annual methane capture by the mine’s methane drainage system, as well as the development of predictive models to determine electricity production based on hourly capture and time parameters. To forecast electricity production, predictive models that are based on five parameters have been adopted. Models were prepared based on three time variables, i.e., month, day, hour, and two values from the gas drainage system-capture and concentration of the methane. For this purpose, artificial neural networks with different properties were tested. The developed models have a high value of correlation coefficient. but showed deviations concerning the very low values persisting for a short time. The study shows that electricity production forecasting is possible, but it requires data on many variables that directly affect the production capacity of the system.
Highlights
Methane has been emitted into the atmosphere for centuries, but industrial development has increased the concentration of methane in the atmosphere
The results show that the inclusion of a combined heat and power (CHP) system based on a Stirling engine leads to a 65.4% reduction in annual greenhouse gas emissions
This paper presents predictive models of electricity generation using coal mine methane based on artificial neural networks
Summary
Methane has been emitted into the atmosphere for centuries, but industrial development has increased the concentration of methane in the atmosphere. It is one of the most important greenhouse gases with a significant global warming potential (GWP). The high level of coalbed methane emissions, as well as increased public concern for the environment, including efforts to reduce greenhouse gases emissions, increased interest in technologies for the capture, and use of methane. In view of the significant calorific value of the gas released and its impact on the environment, systems for methane capture and use of mine gases are becoming increasingly popular.
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