李詠梅導師簡曆
導師簡介:李詠梅,女,湖南衡陽人,中共黨員,博士,副教授,碩士生導師。主持和參與科技部重點研發計劃、國家自然科學基金、湖南省自然科學基金、湖南省教育廳優秀青年項目等國家級和省部級項目10餘項。在《Desalination》、《Langmuir》、《Fractals》、《Science of the Total Environment》、《Nuclear Engineering and Technology》、《岩土力學》、《核技術》等國内外權威期刊上發表學術論文30餘篇,授權國家發明專利5項。主持湖南省教改項目1項,指導學生完成省級大學生創新訓練項目1項,指導學生獲全國城市地下空間工程模型設計大賽二等獎。
研究方向:溶浸采鈾、礦山環境治理以及輻射防護
工作單位:2003网站太阳集团
E-mail:lymusa8866@163.com;lymusa8866@usc.edu.cn
電話/微信: 18073496368
主持和參加的主要項目:
1、國家自然科學基金青年項目,流動電極電容去離子方法快速富集酸法地浸礦山終采後
地下水中低濃度鈾的機理,52404130,2025-01-01至2027-12-31。
2、中國科學技術部,國家重點研發計劃課題,煤與共伴生礦産協調開采隔水層穩定性及污染物遷移控制技術,2021YFC2902104,2021-11-1至2025-12-31。
3、國家自然科學基金面上項目,CO2+O2地浸采鈾采區含鈾含水層砂岩浸出特性參數與孔隙結構演化機理及耦合作用機制,52474135,2025-01-01至2028-12-31。
4、國家自然科學基金面上項目,地浸采鈾采區多孔矽協同微生物在可滲透砂岩中的運移時空演化機理及膠結止水機制,52274127,2023-01-01至2026-12-31。
5、國家自然科學基金面上項目,微生物膠結砂岩型地浸鈾礦山隔水層的抗滲性能試驗及機理研究,51974163,2020-01-01至2023-01-12。
6、 國家自然科學基金青年項目,低滲透砂岩鈾礦電動地浸采鈾增滲提效機理研究,52204139,2023-01-01至2025-12-31。
7、國家自然科學基金委員會,聯合基金項目,U1703123,新疆伊犁盆地地浸采鈾區地下水污染物遷移轉化的動力學機理,2018-01-01至2020-12-31。
8、湖南省自然科學基金青年項目,退役尾礦庫中鈾遷移轉化的微生物——地球化學作用動力耦合機制,2023JJ40522,2023-01-01-2025-12-31。
9、湖南省教育廳優秀青年項目,鈾尾砂中微生物-粘土礦物耦合作用機理及其對鈾遷移轉化的影響,22B0430,2023-01-01-2025-12-31。
10、湖南省教育廳一般項目,鈾尾礦庫放射性污染機制及核素的納米粒子遷移機理研究—以272廠為例,18C0460,2019-01-01至2021-12-31.
11、湖南省教育教學改革研究項目,基于産學研合作的城市地下空間工程專業人才培養改革與實踐研究,HNJG-2020-0458,2021-01-01至2023-12-31.
發表論文:
[1] Zhipeng Tang,Yongmei Li*, Kaixuan Tan, et al. Efficient removal of uranium and sulfate in acid contaminated groundwater by flow electrode capacitive deionization, Desalination, 2025, 594: 118304.
[2]Yongmei Li, Chong Zhang, Zhipeng Tang, et al. Hydrodynamics control for the well field of in-situ leaching of uranium. Nuclear Engineering and Technology, 2024, 56: 4176-4183.
[3]賀桂成,朱小裕,李詠梅*.微生物礦化去除地浸采鈾地下水中污染物的試驗研究.核技術, 2024, 47(6): 060302.(通訊作者)
[4]Yongmei Li, Shuo Meng, Chunguang Li,et al. Update to the Newly Developed Expression for the Stability Ratio of Colloidal Dispersions. Langmuir, 2023, 39, 5284−5293.
[5]賀桂成,唐孟媛,李詠梅*,等.改性黃麻纖維聯合微生物膠結鈾尾砂的抗滲性能試驗研究[J].岩土力學, 2023, (12): 1-12.(通訊作者)
[6]賀桂成,謝元輝,李詠梅*,等.微生物膠結砂岩型鈾礦砂的抗滲性能試驗研究[J].岩土力學, 2022, 43 (09): 2504-2514+2524.(通訊作者)
[7] Longcheng Liu, Shuo Meng, Chunguang Li,Yongmei Li*. Revisiting the Theory of Coagulation of Colloidal Dispersions: An Improved Expression for the Stability Ratio, Langmuir, 2022, 38 (3): 1131-1140. (通訊作者)
[8] Peng Wang, Kaixuan Tan,Yongmei Li*,et al. The adsorption of U(VI) by albite during acid in-situ leaching mining of uranium. Journal of Radioanalytical Nuclear Chemistry,2022.(通訊作者)
[9] Xinyu Wang, Xiaojie Li,Yongmei Li*, et al.Rapid determination of the migration parameters of nuclides in intact granite rock under the action of electric field [J].Nuclear Engineering and Technology, 2025.(通訊作者)
[10] Zhi Zou, Longcheng Liu, Shuo Meng, Xiaolei Bian,Yongmei Li*. Applicability of Different Double-Layer Models for the Performance Assessment of the Capacitive Energy Extraction Based on Double Layer Expansion (CDLE) Technique[J]. Energies, 2021, 14: 5828. (通訊作者)
[11]Yongmei Li, Wanyu Tan, Kaixuan Tan,et al. The effect of laterite density on radon diffusion behavior[J]. Applied Radiation and Isotopes, 2018, 132: 164-169.
[12]Yongmei Li, Wanyu Tan, Kaixuan Tan,et al. Fractaland chaos analysis for dynamics of radon exhalation from uranium mill tailings[J]. Fractals, 2016,24(3): 1650029.
[13]李詠梅,譚凱旋,周泉宇,等.鈾尾礦粒度對氡析出影響的蒙特卡羅模拟[J].原子能科學技術, 2014, 48(9): 1725-1728.
[14] Peng Wang, Kaixuan Tan,Yongmei Li,et al. Effect of Pyrite on the Leaching Kinetics of Pitchblende in the Process of Acid In Situ Leaching of Uranium. Minerals 2022, 12, 570.
[15] Zhenzhong Liu, Chunguang Li, Kaixuan Tan,Yongmei Li,et al. Study of natural attenuation after acid in situ leaching of uranium mines using isotope fractionation and geochemical data[J]. Science of the Total Environment, 2023, 865: 161033.
[16] Zhenzhong Liu, Kaixuan Tan, Chunguang Li,Yongmei Li,et al. Geochemical and S isotopic studies of pollutant evolution in groundwater after acid in situ leaching in a uranium mine area in Xinjiang [J]. Nuclear Engineering and Technology, 2023, 55:1476-1484.
[17] Qianjin Niu, Chunguang Li, Zhenzhong Liu,Yongmei Li, Shuo Meng, Xinqi He, Xinfeng Liu, Wenji Wang, Meijiao He, Xiaolei Yang, Qi Liu, Longcheng Liu. Solidification of uranium mill tailings by MBS-MICP and environmental implications [J]. Nuclear Engineering and Technology, 2022, 54: 3631-3640.
[18]宋靜,譚凱旋,劉振中,李春光,李詠梅,翁宗翔.自然界鈾同位素分餾研究進展及展望[J].核化學與放射化學, 2022, 44 (06): 565-574.
[19]何成垚,譚凱旋,李詠梅,等.新疆某鈾礦酸法和CO2地浸采區地下水的污染特征及機理[J].有色金屬(冶煉部分), 2021, (06): 53-59.
[20]黃武揚,譚凱旋,李詠梅,等.新疆某CO2+O2地浸采鈾礦區地下水化學和硫同位素特征[J].礦業研究與開發, 2021, 41 (01): 111-115.
[21] Wanyu Tan,Yongmei Li, Kaixuan Tan,et al. Distribution of radon and risk assessment of its radiation dose in groundwater drinking for village people nearby the W-polymetallic metallogenic district at Dongpo in southern Hunan province, China[J]. Applied Radiation and Isotopes, 2019, 151: 39-45.
[22] Wanyu Tan,Yongmei Li, Kaixuan Tan,et al. Fractal theory and field cover experiments: implications for the fractal characteristics and radon diffusion behavior of soils and rocks[J]. Health Physics Journal, 2016, 111(6): 506-512.
專利:
[1]一種流動電極及其應用和再生方法、利用流動電極電容去離子裝置富集含鈾水體中鈾的方法,2024-10,專利号:ZL202311595972.5
[2]基于微生物加固工藝的改性纖維複合材料及其制備方法. 2023-04,ZL 202210516043.X.
[3]基于微生物膠結的地浸砂岩型鈾礦的防滲方法,2024-01, ZL 202111283747.9.
[4]一種電動原地浸出采鈾裝置及方法, 2023.01,專利号:ZL202210386868.4。
[5]利用超臨界二氧化碳從低品位鈾礦石中浸取鈾的方法, 2016.04,專利号: CN201410287993.5。
