(1)论文 1. Liu X, Xiong J, Liang L. Investigation of pore structure and fractal characteristics, of organic-rich Yanchang formation shale in central China by nitrogen adsorption/desorption analysis[J]. Journal of Natural Gas Science and Engineering, 2015, 22: 62-72. 2. Xiong J, Liu X, Liang L. Experimental study on the pore structure characteristics of the Upper Ordovician Wufeng Formation shale in the southwest portion of the Sichuan Basin, China[J].Journal of Natural Gas Science and Engineering, 2015,22:530-539 3. Liang L, Xiong J, Liu X. Experimental study on crack propagation in shale formations considering hydration and wettability[J]. Journal of Natural Gas Science and Engineering, 2015, 23: 492-499. 4. Liang L, Xiong J, Liu X. Mineralogical, microstructural and physiochemical characteristics of organic-rich shales in the Sichuan Basin, China[J]. Journal of Natural Gas Science and Engineering, 2015, 26: 1200-1212. 5. Liang L, Xiong J, Liu X. An investigation of the fractal characteristics of the Upper Ordovician Wufeng Formation shale using nitrogen adsorption analysis[J]. Journal of Natural Gas Science and Engineering, 2015, 27: 402-409. 6. Xiong J, Liu X, Liang L. An investigation of fractal characteristics of marine shales in the southern China from nitrogen adsorption data[J]. Journal of Chemistry, 2015, 2015. 7. Liang L, Xiong J, Liu X, et al. An investigation into the thermodynamic characteristics of methane adsorption on different clay minerals[J]. Journal of Natural Gas Science and Engineering, 2016, 33: 1046-1055. 8. Xiong J., Liu K., Liu X., Liang L., et al. Molecular simulation of methane adsorption in slitlike quartz pores[J].RSC Advances, 2016, 6(112):110808-110819 9. Xiong J., Liu X., Liang L., et al. Methane Adsorption on Carbon Models of the Organic Matter of Organic-Rich Shales[J].Energy & Fuels, 2017,31(2),1489-1501. 10. Xiong J, Liu X, Liang L, et al. Adsorption of methane in organic-rich shale nanopores: An experimental and molecular simulation study[J]. Fuel, 2017, 200: 299-315. 11. Xiong J, Liu X, Liang L, et al. Adsorption behavior of methane on kaolinite[J]. Industrial & Engineering Chemistry Research, 2017, 56 (21):6229–6238 12. Xiong J., Liu X., Liang L., et al. Investigation of methane adsorption on chlorite by grandcanonical Monte Carlo simulations[J].Petroleum Science, 2017, 14(1):37-49 13. 熊健,刘向君,梁利喜.页岩中甲烷虚拟饱和蒸汽压的计算方法研究[J].西南石油大学学报(自然科学版),2015,37(4):90-100. 14. 熊健,刘向君,梁利喜.四川盆地长宁构造地区龙马溪组页岩孔隙结构及其分形特征[J].地质科技情报, 2015, 34(4): 70-77. 15. 熊健,刘向君,梁利喜,等.页岩气超临界吸附的Dubibin-Astakhov改进模型[J].石油学报,2015,36(7): 849-857. 16. 熊健,刘向君,梁利喜.甲烷在蒙脱石狭缝孔中吸附行为的分子模拟[J].石油学报,2016,37(8): 1021-1029. 17. 熊健,刘向君,梁利喜.甲烷在官能团化石墨中吸附的分子模拟[J].石油学报,2016, 37(12):1528-1536. 18. 熊健,刘向君,梁利喜.甲烷在黏土矿物狭缝孔中吸附的分子模拟研究[J].煤炭学报,2017, 42(4):959-968.
(2)软著 1.熊健,万有维,刘向君.地质力学参数计算软件,2020SR1122454 2.熊健,万有维,谌丽,王琳,林同奎,顾鹏.页岩气吸附/解吸模型优选分析软件,2020SR0321541
(3)发明专利 1.熊健,林海宇,刘向君,梁利喜. 确定储层可压裂性指数值空间分布的方法[P]. CN110219644B. 2.熊健,张文,刘向君,梁利喜. 一种适合页岩油/气储层的增产方法[P]. CN110159242B. 3.熊健,万有维,刘向君,梁利喜. 工程甜点评测方法[P]. CN109856674B. 4.熊健,黄林林,刘向君,梁利喜,李贤胜,李玮. 一种页岩地层纵波及横波速度的校正方法[P].CN110596757B. 5.熊健,林海宇,刘向君,梁利喜,李玮,魏晓琛. 吸附质气体吸附相密度模型构建及绝对吸附量计算方法[P]. CN110534161B. 6.熊健,黄林林,刘向君,梁利喜,李玮,魏晓琛. 页岩吸附气吸附相密度模型的构建及绝对吸附量计算方法[P]. CN110489927B. 7.万有维,熊健,刘向君,梁利喜,李玮. 一种考虑地层特性的室内测量波速围压、频散校正方法[P].CN111089904B. 8.熊健,万有维,刘向君,梁利喜,张文. 储层开采激励结构以及页岩气储层的开采方法[P].CN109973037B. 9.熊健,张文,刘向君,梁利喜. 一种页岩油开采方法[P]. CN110043238B. 10.刘向君,熊健,梁利喜,刘凯. 一种利用数字岩心获取致密砂岩岩石电学特性的方法[P]. CN109142875B. 11.刘向君,钟自强,熊健,梁利喜. 基于岩性分类的砂砾岩储层岩石力学参数测井评价方法[P]. CN109577972B. 12.刘向君,张文,熊健,梁利喜. 岩石脆性评价方法及装置[P]. CN109828031B. |