一、基本情况

林岚，女，工学博士。2023年3月毕业于日本东北大学土木与环境工程专业，2026年5月至今在安徽建筑大学环境与能源工程学院市政工程系从事教学和科研工作。

二、主要研究领域、方向

研究方向：污水处理与资源化；污水氮碳磷污染物协同治理；生物脱氮技术（厌氧氨氧化耦合工艺）。

三、教科研项目

主持1项省部级重点实验室开放基金项目、1项市级重点实验室开放基金项目，参与国家重点研发计划子课题1项。

四、获奖、荣誉及专利情况

2023年入选国家博士后海外引才专项

授权专利：张彦隆，王颖，林岚，张子锟，曹文志。铁介导的EGSB型PD/anammox-FePs耦合系统及废水处理方法，2025-12-26，中国，ZL202410556312.4

五、10篇代表性论著

1.Lin, L.; Luo, Z.; Ishida, K.; Urasaki, K.; Kubota, K.; Li, Y. Y. Fast Formation of Anammox Granules Using a Nitrification-Denitrification Sludge and Transformation of Microbial Community. Water Res.2022, 221, 118751;

2.Lin, L.; Song, Y.; Zhang, Y.; Luo, Z.; Li, Q.; Cao, W.; Li, Y. Y. Enhanced Sludge Granulation and Stable Performance of an Anammox Expanded Granular Sludge Bed (EGSB) Reactor through the Utilization of Hydroxyapatite (HAP) Particles. Bioresour. Technol. 2024, 406, 131091;

3.Lin, L.; Luo, Z.; Zhang, Y.; Ren, Y.; Li, Y. Y. Partial Denitrification-Anammox Granular Sludge Domesticated from High-Strength Anammox Granules and the High-Efficiency Performance in Treating Low-Nitrogen Wastewater. Chem. Eng. J. 2023, 477, 147281;

4.Lin, L.; Song, Y.; Li, Y. Y. Inorganic Carbon (IC) as a Key Factor Affecting the Performance of Anammox-Hydroxyapatite (HAP) Process at Extremely Low Temperature (7 °C). Chem. Eng. J. 2022, 433, 133644;

5.Lin, L.; Ishida, K.; Zhang, Y.; Usui, N.; Miyake, A.; Abe, N.; Li, Y.-Y. Improving the Biomass Retention and System Stability of the Anammox EGSB Reactor by Adding a Calcium Silicate Hydrate Functional Material. Sci. Total Environ. 2023, 857, 159719;

6.Lin, L.; Ishida, K.; Zhang, Y.; Usui, N.; Miyake, A.; Abe, N.; Li, Y.-Y. Improving the Biomass Retention and System Stability of the Anammox EGSB Reactor by Adding a Calcium Silicate Hydrate Functional Material. Sci. Total Environ. 2023, 857, 159719;

7.Lin, L.; Zhao, W.; Cui, S.; Song, Y.; Zhang, Y.; Li, Y. Y. Kuenenia-Enriched Hydroxyapatite Granules Enable Stable High-Rate Nitrogen Removal of High-Strength Food Waste Permeate in an EGSB-Anammox System: Insights into Granule Performance and Process Scalability. J. Water Process Eng. 2025, 72, 107642;

8.Lin, L., Zhang, Y., Beckman, M., Cao, W., Ouyang, T., Wang, S., Li, Y.Y.. Process optimization of anammox-driven hydroxyapatite crystallization for simultaneous nitrogen removal and phosphorus recovery. Bioresour. Technol.2019, 290, 121779;

9.Zhou, B.1; Lin, L.1; Zhang, Q.; Wang, Y.; Zhang, Z.; Xie, X.; Cao, W.; Li, Y. Y.; Zhang, Y. Fe(II)-Mediated Fe–N–P Metabolism in an Anammox-Dominated System for Enhanced Nitrogen Removal and Fe–P Crystals (FePs) Production. J. Clean. Prod. 2024, 471, 143376;(共同一作)

10.Song, Y.1; Lin, L.1; Rong, C.; Li, Y. Y. Upgrading the Two-Stage Partial Nitritation/Anammox Process: High-Rate Partial Nitritation with Hydroxyapatite-Enhanced Anammox Granular Sludge. Environ. Sci. Water Res. Technol. 2026, 12, 1048-1061。(共同一作)