Characteristics of Water Contaminants from Underground Coal Gasification (UCG) Process—Effect of Coal Properties and Gasification Pressure

One of the most important issues during UCG process is wastewater production and treatment. Condensed gasification wastewater is contaminated by many hazardous compounds. The composition of the generated UCG-derived wastewater may vary depending on the type of gasified coal and conditions of the gas...

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Published in:Energies (Basel) 2021-10, Vol.14 (20), p.6533
Main Authors: Pankiewicz-Sperka, Magdalena, Kapusta, Krzysztof, Basa, Wioleta, Stolecka, Katarzyna
Format: Article
Language:English
Subjects:
Anthracite
Bituminous coal
Catalytic oxidation
Chemical oxygen demand
Coal
Coal gasification
Coal industry wastewaters
Coal mining
Composition
Contaminants
Correlation analysis
Effluents
Energy industry
environmental impact assessment
Experiments
Metals
Methods
Phenols
Pollutants
Polycyclic aromatic hydrocarbons
Pressure
Qualitative analysis
SNG
Trace elements
UCG wastewater
underground coal gasification
Wastewater pollution
Wastewater treatment
Water pollution
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Summary:One of the most important issues during UCG process is wastewater production and treatment. Condensed gasification wastewater is contaminated by many hazardous compounds. The composition of the generated UCG-derived wastewater may vary depending on the type of gasified coal and conditions of the gasification process. The main purpose of this study was a qualitative and quantitative characterization of the UCG wastewater produced during four different UCG experiments. Experiments were conducted using semi-anthracite and bituminous coal samples at two distinct pressures, i.e., 20 and 40 bar. The conducted studies revealed significant relationships between the physicochemical composition of the wastewater and the coal properties as well as the gasification pressure. The strongest impact is noticeable in the case of organic pollutants, especially phenols, BTEX and PAH’s. The most abundant group of pollutants were phenols. Conducted studies showed significantly higher concentration levels for bituminous coal: 29.25–49.5 mg/L whereas for semi-anthracite effluents these concentrations were in much lower range 2.1–29.7 mg/L. The opposite situation occurs for BTEX, higher concentrations were in wastewater from semi-anthracite gasification: 5483.1–1496.7 µg/L, while in samples from bituminous coal gasification average BTEX concentrations were: 2514.3–1354.4 µg/L. A similar relationship occurs for the PAH’s concentrations. The higher values were in case of wastewater from semi-anthracite coal experiments and were in range 362–1658 µg/L while from bituminous coal gasification PAH’s values are in lower ranges 407–1090 µg/L. The studies conducted have shown that concentrations of phenols, BTEX and PAH’s decrease with increasing pressure. Pearson’s correlation analysis was performed to enhance the interpretation of the obtained experimental data and showed a very strong relationship between three parameters: phenols, volatile phenols and CODcr.
ISSN:1996-1073
1996-1073
DOI:10.3390/en14206533