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庄林岚
-
副教授
硕士生导师
- 性别:女
- 毕业院校:清华大学
- 学历:研究生(博士后)
- 学位:工学博士学位
- 在职信息:在职
- 所在单位:环境科学与工程学院
- 入职时间: 2017-09-19
访问量:
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[21]
陆佳兴.
Highly enhanced removal of nutrients and benzo[a]pyrene in a siphon constructed wetland with magneti.
Chemical Engineering Journal,
446,
2022.
-
[22]
胡霄进.
More is better? Constructed wetlands filled with different amount of Fe oxides showed opposite phosp.
Journal of Cleaner Production,
329,
2021.
-
[23]
于慧芳.
Enhanced Transpiration by Attached Microalgae-Simulated Plants for Zero-Discharge of Reverse Osmosis.
13,
2058,
2020.
-
[24]
陈信含.
Priming effects of root exudates on the source-sink stability of benzo[a] pyrene in wetlands: A micr.
J. Hazardous Mater. ,
429,
2022.
-
[25]
杨雅楠.
Recognition of key factors on attached microalgae growth from the internal sight of biofilm.
Science of The Total Environment ,
811,
2022.
-
[26]
李向征.
High-efficient nitrogen and phosphorus removal and its mechanism in a partially unsaturated construc.
Chemical Engineering Journal,
431,
2022.
-
[27]
郑欣慧.
Optimization of the pollutant removal in partially unsaturated constructed wetland by adding microfi.
Science of The Total Environment ,
752,
2021.
-
[28]
胡霄进.
A review on the role of plant in pharmaceuticals and personal care products (PPCPs) removal in const.
Science of The Total Environment ,
780,
2021.
-
[29]
于慧芳.
Enhanced Transpiration by Attached Microalgae-Simulated Plants for Zero-Discharge of Reverse Osmosis.
13,
2021.
-
[30]
庄林岚.
Performance of a novel tidal unsaturated constructed wetland on wastewater purification.
Journal of Water Process Engineering,
101871,
2021.
-
[31]
庄林岚.
Enhanced Transpiration by Attached Microalgae-Simulated Plants for Zero-Discharge of Reverse Osmosis.
Water,
15,
2058,
2021.
-
[32]
庄林岚.
潜流人工湿地中基质在污水净化中的作用机制与选择原理.
环境工程,
2021.
-
[33]
庄林岚.
Non-suspended microalgae cultivation for wastewater refinery and biomass production.
生物技术BT,
308,
2020.
-
[34]
周璐璐.
Performance of a novel tidal unsaturated constructed wetland on wastewater purification.
39,
2021.
-
[35]
董程.
The Improvement of Pollutant Removal in the Ferric-Carbon Micro-Electrolysis Constructed Wetland by .
12,
2020.
-
[36]
郑欣慧.
Optimization of the pollutant removal in partially unsaturated constructed wetland by adding microfi.
Science of The Total Environment ,
2020.
-
[37]
庄林岚.
The configuration, purification effect and mechanism of intensified constructed wetland for wastewat.
Bioresource Technology,
293,
2019.
-
[38]
庄林岚.
Non-suspended microalgae cultivation for wastewater refinery and biomass production.
Bioresource Technology,
2020.
-
[39]
庄林岚.
A novel tidal unsaturated constructed wetland for high-efficiency nitrogen removal of wastewater bas.
Bioresource Technology Reports,
2020.
-
[40]
庄林岚.
A novel light source provided by photobacteria to improve the growth of microalgal biofilm.
Bioresource Technology Reports,
2019.
