Abstract
Purpose The aim of the work presented in this paper was the construction of a regression model describing the relationship between the experimentally determined value of the maximum temperature observed during the coal mine waste fire and physicochemical parameters characterizing the coal mine waste. Methods The model was constructed with the application of the Partial Least Squares method. The experimental data analysed was acquired through the use of a laboratory test stand with a fixed bed reactor and analytical method of gas chromatography. Results The constructed model was characterized by a good fit of the data used in its construction and the strong predictive ability for the new data. It illustrated the significant impact of the content of H and Fe2O3 and trace elements: Co, Cu, Pb, Sr, V and Zn in a sample on the value of the maximum temperature reached during the fire of coal mine waste. Practical implications The practical importance of the work presented is clear in the light of the role of coal in the Polish economy and environmental aspects related to coal mining and the coal-based energy sector, in particularly to coal waste disposal and utilization. The model constructed contributes to the development of methods of self-ignition and fire risk assessment on coal waste dumps by determining the relationship between waste dump fire occurrence, the temperature observed during the fire and the physicochemical parameters characterizing the coal mine waste. Originality/value The novelty of the study presented in the paper consists in both finding the relationships modelled and the data extraction methods applied in the research field concerned.
Highlights
The increase in energy consumption and increased demand for fossil fuels have created new opportunities for the mining industry, especially in conditions of limited global resources of oil and natural gas (BP, 2013; Smoliński & Howaniec, 2010)
An analysis of the physicochemical parameters for 12 coal mine waste materials collected from mine waste dumps located in the Silesian region has been presented (Smoliński, 2014a)
A regression model was constructed, describing the relationship between the experimentally determined value of the maximum temperature observed during the fire of coal mine waste dumps, and physicochemical parameters characterizing waste samples
Summary
The increase in energy consumption and increased demand for fossil fuels have created new opportunities for the mining industry, especially in conditions of limited global resources of oil and natural gas (BP, 2013; Smoliński & Howaniec, 2010). The environment protection regulations, especially in terms of greenhouse gas emissions reduction, represent a major challenge for the coal mining sector and coal-based energy sector (Smoliński & Howaniec, 2007). Mine waste dumps differ significantly in terms of waste composition This results from the type of waste sources (one or several mines), the age of the dump and the differences in the operation of a mine (different technologies of coal processing). The oldest coal mine waste comes from the period when sorting stations operated in mines solely. Another type of waste is that from inactive slime separators. It is important to find the relationship between the waste dump fire, the temperature
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