Experimental study on variation law of electrical parameters and temperature rise effect of coal under DC electric field

Joule heats which are generated by coals in an applied electric field are directly correlated with variation resistivity of electrical parameters of coals. Moreover, the joule heating effect is closely related with microstructural changes and relevant products of coal surface. In the present study,...

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Bibliographic Details
Published in:Scientific reports 2021-03, Vol.11 (1), p.7138-7138, Article 7138
Main Authors: Yang, Yunpeng, Wen, Zhihui, Si, Leilei, Xu, Xiangyu
Format: Article
Language:English
Subjects:
639/4077
639/766/36
704/2151/330
Coal
Electric fields
Gas production
Heterogeneity
Humanities and Social Sciences
multidisciplinary
Oil and gas production
Pyrolysis
Science
Science (multidisciplinary)
Temperature
Temperature distribution
Variation
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Summary:Joule heats which are generated by coals in an applied electric field are directly correlated with variation resistivity of electrical parameters of coals. Moreover, the joule heating effect is closely related with microstructural changes and relevant products of coal surface. In the present study, a self-developed applied direct current (DC) field was applied onto an experimental system of coals to investigate variation resistivity of electrical parameters of highly, moderately and lowly metamorphic coal samples. Moreover, breakdown voltages and breakdown field intensities of above three coal samples with different metamorphic grades were tested and calculated. Variation resistivity of electrical parameters of these three coal samples in 2 kV and 4 kV DC fields were analyzed. Results show that internal current of all coal samples increases continuously and tends to be stable gradually after reaching the “inflection point” at peak. The relationship between temperature rise effect on anthracite coal surface in an applied DC field and electrical parameters was discussed. The temperature rise process on anthracite coal surface is composed of three stages, namely, slowly warming, rapid warming and slow cooling to stabilize. The temperature rise effect on anthracite coal surface lags behind changes of currents which run through coal samples. There’s uneven temperature distribution on anthracite coal surface, which is attributed to the heterogeneity of coal samples. In the experiment, the highest temperature on anthracite coal surface 65.8 ℃ is far belower than the lowest temperature for pyrolysis-induced gas production of coals 200 ℃. This study lays foundations to study microstructural changes and relevant products on coal surface in an applied DC field.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-86598-0