徐云山，男，福建莆田人，中共党员，工学博士，副教授，硕士生导师，福建省高层次人才。主要从事环境岩土、海洋工程与地质工程方面的教学和科研工作，在《Engineering Geology》、《Acta Geotechnica》、《Applied Clay Science》、《Canadian Geotechnical Journal》、《Construction and Building Materials》、《Applied Thermal Engineering》、《岩土工程学报》、《岩土力学》等国内外知名学术期刊上发表学术论文40余篇，授权专利3项，参与3项国家自然科学基金项目、多项横向课题，主持国家自然科学基金（青年项目）、福建省自然科学基金（青年项目）、福建省自然科学基金面上项目、校科研启动项目等课题；指导研究生多次获得国家奖学金和学业一等奖学金；指导本科生获“全国高校城地专业大学生模型竞赛”全国一等奖、二等奖各一项。

研究生招生：欢迎对环境岩土、海洋工程、能源开发利用领域感兴趣的学生加入课题组，也欢迎材料、环境、计算机、管理等学科背景的学生加入。联系邮箱：xuyunshanfj@163.com！

研究方向：

[1] 特殊岩土体传热性状与人工智能预测模型二次开发

[2] 高放处置库缓冲材料热-水-力-化耦合行为

[3] 土壤源储能技术开发与应用（地热能、太阳能等清洁能源开发利用）

发表论文：

[1] Coupled thermal and pressure effects on thermal conductivity of joint-filled bentonite in engineered barrier systems, Engineering Geology, 2026, 362: 108521.

[2] A generalized two-step model for predicting thermal conductivity of bentonite-based mixtures in nuclear waste repositories, Canadian Geotechnical Journal, 2026, 63:1-26.

[3] Thermal conductivity and microstructural evolution of bentonite pellet mixtures under combined temperature and pressure, Acta Geotechnica, 2026.

[4] Predictive model for the temperature effect on soil thermal conductivity based on effective medium theory, Acta Geotechnica, 2026.

[5]  Impact of karst groundwater seepage on heat transfer efficiency of geothermal heat exchangers, Energy and Buildings, 2025, 328: 115146.

[6] Evolution mechanism of concrete thermal conductivity under coupled temperature-sulfate attack, International Communications in Heat and Mass Transfer, 2025, 169: 109884.

[7] Study on the effect of ground stratification on heat transfer of vertical ground heat exchangers in lateritic clay areas, Applied Thermal Engineering, 2024, 253: 123804.

[8] Study on the evolution of durability performance and micro-mechanisms of concrete under temperature-sulfate coupled erosion, Construction and Building Materials, 2024, 449: 138372.

[9] Thermal properties of GMZ bentonite pellet mixtures subjected to different temperatures for high-level radioactive waste repository, Acta Geotechnica, 2022, 17: 981-992.

[10] Effects of free iron oxide on thermal properties of undisturbed lateritic clay subjected to drying and wetting, Acta Geotechnica, 2022, 17: 4473-4483.

[11] Three-dimensional thermal–hydraulic coupled analysis in the nuclear waste repository, Annals of Nuclear Energy, 2021, 151: 107866.

[12] Comparative study on thermal properties of undisturbed and compacted lateritic soils subjected to drying and wetting, Engineering Geology, 2020, 277: 105800.

[13] Effect of aging on thermal conductivity of compacted bentonites, Engineering Geology, 2019, 253: 55-63.

[14] Temperature dependence of apparent thermal conductivity of compacted bentonites as buffer material for high-level radioactive waste repository, Applied Clay Science, 2019, 174: 10-14.

[15] Effect of temperature on thermal conductivity of lateritic clays over a wide temperature range, International Journal of Heat and Mass Transfer, 2019, 138: 562-570.

[16] 游离氧化铁赋存形式对脱吸湿条件下红黏土热传导性能的影响, 岩土工程学报, 2025, 47(4): 811-819.

[17] 土体导热系数温度效应及其预测模型, 岩土工程学报, 2023, 45(6): 1180-1189.