Genetic mechanisms of coalbed methane in typical districts from Huaibei Coalfield, Eastern China

• Main Authors: Li Tong, Yi Luo, Feng Zhou, Yafei Wang, Shuying Li, Lingxiao Jia, Tao Yue
• Format: Article
• Language: English
• Published: Taylor & Francis Group 2018-01-01
• Series: Geodinamica Acta
• Subjects: Genetic mechanism; coalbed methane; geothermal field; tectonic evolution; Huaibei Coalfield
• Online Access: http://dx.doi.org/10.1080/09853111.2018.1493885

Taking insight into genetic mechanisms of coalbed methane (CBM) can provide an effective approach for evaluating the value of CBM resources. In this study, the geo-temperature and the thermal subsidence history were used to investigate the effect of the present geothermal field characteristic on the genetic mechanisms of CBM at the Huaibei Coalfield. The results showed that the Permian coal strata in the study areas had a relatively low geo-temperature (< 50°C), high vitrinite reflectance (Ro,max; 0.75%-1.2%) and a coal rank typical of intermediate-high metamorphic bituminous. Comprehensive analyses of the characteristics of the present geothermal field indicate that the CBM at the Huaibei Coalfield are dominated by secondary biogenic gases. Furthermore, the genetic mechanism towards CBM was further proposed based on the tectonic evolution history: (1) Tectonic thrusting contributed to Ro,max values ranging from 0.5% to 3.0%, with maximum geo-temperatures of 140–180°C, which resulted in the generation of thermogenic CBM. (2) An extensional regime contributed to gradual uplift of the Permian coal-bearing strata, with the gradual escape of CBM at burial depths greater than 700m. (3) A large number of faults and hydrodynamic environments greatly promoted the microbial degradation of the early thermogenic gases, resulting in generation of secondary biogenic gases.