Experimental study on the effects of steam temperature on the pore-fracture evolution of oil shale exposed to the convection heating

In the convection heating technology for shale oil recovery, steam is used as a transmission medium to pyrolyze oil shale. An experiment was designed to pyrolyze oil shale via steam injection in a large reactor. The samples of oil shale and semi-coke were obtained at different pyrolysis temperatures...

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Bibliographic Details
Published in:Journal of analytical and applied pyrolysis 2022-06, Vol.164, p.105533, Article 105533
Main Authors: Wang, Lei, Yang, Dong, Kang, Zhiqin, Zhao, Jing, Meng, Qiaorong
Format: Article
Language:English
Subjects:
Convection heating
Microfractures
Oil shale
Steam
Thermal cracking
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Summary:In the convection heating technology for shale oil recovery, steam is used as a transmission medium to pyrolyze oil shale. An experiment was designed to pyrolyze oil shale via steam injection in a large reactor. The samples of oil shale and semi-coke were obtained at different pyrolysis temperatures, and the pore-fracture structure of the samples was studied. The results showed that the average pore diameter and median pore diameter increased by about 10 times when the steam temperature increased from 314 °C to 555 °C. After completion of the steam pyrolysis, we observed that the internal fractures of oil shale were mainly microfractures. At the pyrolysis temperature of 555 °C, the number of microfractures in oil shale was more than 50 times compared with those observed at normal temperature. The micro-CT results indicated that the porosity of oil shale reached 15% after pyrolysis with high-temperature steam. At this porosity, the oil content of samples after pyrolysis was 0.05–0.22%, and the internal organic matter was completely pyrolyzed. Finally, the bedding planes of rock mass exhibited significant ruptures when the oil shale was pyrolyzed with high-temperature steam, thus providing proper channels for steam injection and flows of oil and gas. •An experiment of oil shale pyrolysis by steam injection in a long reactor was designed.•The internal fractures of oil shale after steam pyrolysis were mainly microfractures.•The number of microfractures in oil shale at 555 ℃ was over 50 times higher than that at normal temperature.•The organic matter retained in the dead-end pores was fully pyrolyzed by superheated steam.
ISSN:0165-2370
1873-250X
DOI:10.1016/j.jaap.2022.105533