代表性论文
1.Zhan, L. T.,Li, G. Y.*(通讯作者), Bate, B., & Chen, Y. M. (2022). A preliminary exploration of the micro-scale behaviour of capillary barrier effect using microfluidics.Géotechnique, 1-8.(岩土三大刊)
2.Li, G. Y.*, Zhan, T. L. T., Chen, Y. M., Feng, S., Zhang, Z., & Du, X. (2022). Effects of flow rate and pore size variability on capillary barrier effects: A microfluidic investigation.Canadian Geotechnical Journal.(岩土三大刊)
3.Li, G. Y., Zhan, T. L. T., Zhang, Z. H., Zhang, S., & Feng, S*. (2023). Pore network modeling of capillary barrier effects: Impact of pore sizes.Canadian Geotechnical Journal.(岩土三大刊)
4.Feng, S., Leung, A. K., Zhan, L. T., Liu, H. W.,Li, G. Y.* (通讯作者), & Guo, X. K. (2022). A new method for simultaneous measurements of gas dispersion coefficient and gas coefficient of permeability of unsaturated soils.Journal of Geotechnical and Geoenvironmental Engineering, 148(4), 04022006.(岩土三大刊)
5.Feng, S., Huang, S. F., Jiang, J. L., Zhan, L. T.,Li, G. Y.*(通讯作者), Guan, R. Q., Guo, H. W., Liu, H. W. (2023). Effects of pore-size distribution on gas diffusion coefficient and gas permeability of compacted manufactured sand tailings-bentonite mixtures.Journal of Geotechnical and Geoenvironmental Engineering,(岩土三大刊)
6.Zhan, L. T.*,Li, G. Y., Jiao, W. G., Wu, T., Lan, J. W., & Chen, Y. M. (2016). Field measurements of water storage capacity in a loess–gravel capillary barrier cover using rainfall simulation tests.Canadian Geotechnical Journal, 54(11), 1523-1536.(岩土三大刊)
7.Li, G. Y., Zhan, L. T., Yun, T. S., & Dai, S.*. (2020). Pore‐scale controls on the gas and water transport in hydrate-bearing sediments.Geophysical Research Letters, e2020GL086990.(地学顶刊,NatureIndex期刊)
8.Li, G. Y.*, Zhan, L. T., Zhang, S., Feng, S., & Zhang, Z. H. (2022). A dual-porosity model for coupled rainwater and landfill gas transport through capillary barrier covers.Computers and Geotechnics, 151, 104966.
9.Li, G. Y.*, Liu, S. D., Jiao, W. G., Feng, S., Zhan, L. T., & Chen, Y. M. (2024). Numerical investigation and optimal design of capillary barrier cover with passive gas collection pipes on the performance at limiting landfill gas emissions.Science of the Total Environment, 927, 172421.
10.Zhan, L. T.,Li, G. Y.* (通讯作者), Jiao, W. G., Lan, J. W., Chen, Y. M., & Shi, W. (2020). Performance of a compacted loess/gravel cover as a capillary barrier and landfill gas emission controller in northwest china.Science of the Total Environment, 137195.