個人簡介
林丹彤,蘭州大學資源環境學院水文係青年研究員,碩士生導師,主要從事土壤水及地下水遷移方麵的研究工作。2016年獲得清華大學工學學士學位,2021年獲得清華大學工學博士學位,導師為胡黎明教授,同年進入清華大學水利係博士後工作站工作,並入選清華大學“水木學者”計劃,2023年入選188BETApp 第一屆“青年人才托舉工程”,2023年8月入職蘭州大學資源環境學院。主持國家自然科學基金青年基金1項,甘肅省自然科學基金麵上項目1項,北京市自然科學基金青年項目1項,另主持實驗室開放基金4項。共發表學術論文20餘篇,以第一作者身份在《岩土力學》、《Environmental Science & Technology》、《Water Resources Research》等國內外知名刊物上發表論文10餘篇,獲國家發明專利1項,軟件著作權3項。
主要學術成果
SCI論文
1. Lin D, Zhang D, Zhang X, Goncalves da Silva B M, Hu L*, and Meegoda J N*, 2023. Prediction of gas production rate from shale gas reservoirs using a micro-macro analysis. Scientific Reports, 13, (1), 494.
2. Lin D, Hu L*, and Lo I M C. Two-dimensional modeling of nano zero-valent iron transport and retention before and after phosphate adsorption [J]. Environmental Science & Technology, 2022, 56 (24): 17712-17719.
3. Lin D, Zhang X, Hu L*, Bradford S A*, and Shen C, 2022. Prediction of colloid sticking efficiency at pore-scale and macroscale using a pore network model [J]. Journal of Hydrology, 612: 128253.
4. Lin D, Hu L*, Bradford S A*, Zhang X, and Lo I M C, 2022. Prediction of collector contact efficiency for colloid transport in porous media using Pore-Network and Neural-Network models [J]. Separation and Purification Technology, 290: 120846.
5. Lin D, Hu L*, Bradford S A*, Zhang X, and Lo I M C, 2021. Pore-network modeling of colloid transport and retention considering surface deposition, hydrodynamic bridging, and straining [J]. Journal of Hydrology, 603: 127020.
6. Lin D, Hu L*, Bradford S A*, Zhang X, and Lo I M C, 2021. Simulation of colloid transport and retention using a p
ore‐network model with roughness and chemical heterogeneity on pore surfaces [J]. Water Resources Research, 57 (2): e2020WR028571.
7. Lin D, Bradford S, Hu L*, and Lo I M C, 2021. Impact of phosphate adsorption on the mobility of PANI-supported nano zero-valent iron [J]. Vadose Zone Journal, 20 (2): e20091.
8. Zhang D, Zhang X, Guo H, Lin D, Meegoda J N*, and Hu L*, 2021. An anisotropic pore-network model to estimate the shale gas permeability [J]. Scientific Reports, 11 (1): 7902.
9. Lin D, Hu L*, Lo I M C, and Yu Z, 2020. Size distribution and phosphate removal capacity of nano zero-valent iron (nZVI): Influence of PH and ionic strength [J]. Water, 12 (10): 2939.
EI論文
10. 林丹彤, 胡黎明*, 2022. 多孔介質中磷負載納米鐵運動特性的模型試驗 [J]. 岩土力學, 43: 337-344+357
11. 林丹彤, 胡黎明*, 沈重陽, 2022. 飽和多孔介質中膠體運移模擬方法研究進展 [J]. 中國環境科學, 42 (02): 914-924
12. 張興昊, 林丹彤, 胡黎明*, 2022. 基於等效孔隙網絡模型的水動力彌散數值模擬 [J]. 清華大學學報(自然科學版): 1-9
13. 胡黎明*, 林丹彤, 勞敏慈, 2021. 多孔介質中納米零價鐵運移行為的試驗研究 [J]. 岩土工程學報, 43: 1173-1181
14. Lin D, Zhang Z, and Hu L*. Adsorption models of groundwater remediation by nanoscale zero valent iron [M]. Proceedings of the 8th International Congress on Environmental Geotechnics Volume 1. 2019: 512-520.
15. Wang Y, Lin D, and Hu L*. One-dimensional model for sedimentation and consolidation of tailings slurry [M]. Proceedings of the 8th International Congress on Environmental Geotechnics Volume 3. 2019: 198-204.
16. Hu L*, Lin D, Wu H, and Du J. Numerical simulation of the consolidation characteristics considering the construction process for tailings [M]. 19th International Conference on Soil Mechanics and Geotechnical Engineering, ICSMGE 2017.
國際會議論文
17. Zhang X, Lin D, and Hu L*. Simulation of mechanical dispersion by an anisotropic pore-network model [M]. Proceedings of the 20th International Conference on Soil Mechanics and Geotechnical Engineering. Sydney, Australia. 2022: 3797-3801.
18. Lin D, Bradford S A, Hu L*, Zhang X, and Lo I. Simulation of colloids transport and retention by pore-network model: Influence of particle size and flow velocity [M]. Proceedings of the 2nd International Symposium of Water Disaster Mitigation and Water Environment Regulation. Chengdu, China. 2021.
19. Lin D, Wu H, and Hu L*. Excess pore pressure during One-dimensional self-weight consolidation [M]. Proceedings of GeoShanghai 2018 International Conference: Fundamentals of Soil Behaviours. 2018: 407-416.
20. Du J, Hu L*, Lin D, and Zhang L. Experimental study on physical and mechanical properties of iron tailing materials [M]. Proceedings of GeoShanghai 2018 International Conference: Rock Mechanics and Rock Engineering. 2018: 187-194.
中文核心論文
21. 胡黎明*, 林丹彤, 張鵬偉, 張興昊, 郭豪豪, Meegoda J N, 董曉強, 2022. 多孔介質孔隙結構模型及其在滲流分析中的應用 [J]. 太原理工大學學報, 53: 360-370
依托項目簡介:
(1)項目名稱:多孔介質孔隙結構對地下水中膠體運移和滯留的宏微觀影響規律研究
(2)關鍵詞:多孔介質孔隙結構,膠體運移,膠體滯留,等效孔隙網絡模型,宏微觀行為
(3)項目摘要:膠體在多孔介質孔隙結構中的運移和滯留是自然界和工程中的常見現象,研究膠體在多孔介質中的運移和滯留行為,對於公共衛生安全及地下水汙染防控具有重要意義。本項目擬針對多孔介質孔隙結構對膠體運移和滯留的宏微觀影響規律開展研究。基於計算機圖形學分析,從真實多孔介質中提取孔隙結構特征,采用統計分析的方法提取孔隙結構特征參數;開展二維微流控芯片及三維可視化模型試驗,基於統計參數設計多孔介質孔隙結構,直接觀測膠體在孔隙結構中的運移和滯留行為,並同時得到模型的宏觀出流曲線;從膠體的微觀受力出發推導孔隙尺度膠體運移和滯留方程,開發等效孔隙網絡模型對試驗結果進行對比驗證,建立微觀機理與宏觀現象之間的聯係,並通過模型的擴展運算對膠體在不同水文地質條件下的遷移範圍進行預測。基於上述研究對已有的膠體過濾理論和描述膠體運移的對流彌散方程進行修正和完善,為評估地下水中膠體的傳播過程以及指導地下水原位修複材料的場地應用提供決策依據。
