基本情况

张良,副教授,博士生导师,国家级青年人才计划入选者。主要研究方向为污水低碳生物处理与资源化。在Environmental Science & TechnologyWater Research等环境领域重要SCI期刊发表论文50余篇,其中第一/通讯作者论文26篇(详情见ResearchGate: //www.researchgate.net/profile/Liang-Zhang-34),总引用次数2500余次,H指数34Google Scholar)。

 

欢迎具有环境微生物/微生物、环境科学、环境工程背景的本科生、研究生、博士后和科研助理加入本课题组。

 

联系方式

地址:广州市番禺区大学城外环东路132号博彩网站-博彩担保网-博彩评级网 ,510006

Email: [email protected] ; [email protected]

 

教育经历

2015-2018,奥胡斯大学,生物科学,博士

2012-2014,中山大学,环境工程,硕士

2008-2012,华南师范大学,环境工程,学士

 

工作经历

2022- ,中山大学,博彩网站 ,副教授

2019-2022,南洋理工大学,南洋环境与水研究所(NEWRI),博士后研究员

 

研究领域

硫循环驱动的碳/氮/重金属生物化学转化机制

污/废水低碳生物处理与资源化

人工生态系统中的微生物学机制

 

项目

1. 高校基本科研业务费-青年教师培育项目,2024-2026,主持

2. 广州市科技计划项目,2024-2026,主持

3. 国家重点研发计划项目子课题,2023-2027,主持

4. 中山大学“百人计划”启动项目,2022-2025,主持

 

获奖情况

2023年度华夏建设科学技术奖一等奖(R5)

2018年度国家优秀自费留学生奖学金特别优秀奖

 

代表性论文

  1. Xu, H.#, Zhang, L.#, Xu, R., Yang, B., Zhou, Y.* Iron cycle-enhanced anaerobic ammonium oxidation under microaerobic conditions. Water Research, 2024, 250, 121022.
  2. Zhang, L., Qiu, Y. Y., Sharma, K. R., Shi, T., Song, Y., Sun, J., Liang, Z., Yuan, Z.*, Jiang, F.* Hydrogen sulfide control in sewer systems: A critical review of recent progress. Water Research, 2023, 240, 120046.
  3. Xu, H., Zhang, L.*, Yao, C., Yang, B., Zhou, Y.* Synergistic effect of extracellular polymeric substances and carbon layer on electron utilization of Fe@C during anaerobic treatment of refractory wastewater. Water Research, 2023, 119609.
  4. Zhang, L., Guo, K., Wang, L., Xu, R., Lu, D., Zhou, Y.* Effect of sludge retention time on microbial succession and assembly in thermal hydrolysis pretreated sludge digesters: Deterministic versus stochastic processes. Water Research, 2022, 209, 117900.
  5. Zhang, L.#; Gong, X.#; Xu, R.; Guo, K.; Wang, L.; Zhou, Y.* Responses of mesophilic anaerobic sludge microbiota to thermophilic conditions: Implications for start-up and operation of thermophilic THP-AD systems. Water Research, 2022, 216, 118332.
  6. Zhang, L., Qiu, Y.-Y., Zhou, Y., Chen, G.-H., van Loosdrechtd, M.C., Jiang, F.* Elemental sulfur as electron donor and/or acceptor: Mechanisms, applications and perspectives for biological water and wastewater treatment. Water Research, 2021, 202, 117373.
  7. Zhang, L., Sun, F., Wu, D., Yan, W., Zhou, Y.* Biological conversion of sulfamethoxazole in an autotrophic denitrification system. Water Research, 2020, 185, 116156.
  8. Sun, R.#, Zhang, L.#, Wang, X., Ou, C., Lin, N., Xu, S., Qiu, Y.-Y., Jiang, F.* Elemental sulfur-driven sulfidogenic process under highly acidic conditions for sulfate-rich acid mine drainage treatment: Performance and microbial community analysis. Water Research, 2020, 185, 116230.
  9. Liang, Z.-S.#, Zhang, L.#, Wu, D., Chen, G.-H., Jiang, F.* Systematic evaluation of a dynamic sewer process model for prediction of odor formation and mitigation in large-scale pressurized sewers in Hong Kong. Water Research, 2019, 154, 94-103.
  10. Liang, C.#, Zhang, L.#, Nord, N.B., Carvalho, P.N., Bester, K.* Dose-dependent effects of acetate on the biodegradation of pharmaceuticals in moving bed biofilm reactors. Water Research, 2019, 159, 302-312.
  11. Cao, J.#, Zhang, L.#, Hong, J., Sun, J., Jiang, F.* Different ferric dosing strategies could result in different control mechanisms of sulfide and methane production in sediments of gravity sewers. Water Research, 2019, 164, 114914.
  12. Zhang, L.*, Lyu, T., Zhang, Y., Button, M., Arias, C.A., Weber, K.P., Brix, H., Carvalho, P.N.* Impacts of design configuration and plants on the functionality of the microbial community of mesocosm-scale constructed wetlands treating ibuprofen. Water Research, 2018, 131, 228-238.
  13. Zhang, L.#, Zhang, Z.#, Sun, R., Liang, S., Chen, G.-H., Jiang, F.* Self-accelerating sulfur reduction via polysulfide to realize a high-rate sulfidogenic reactor for wastewater treatment. Water Research, 2018, 130, 161-167.
  14. Wang, J.-t.#, Zhang, L.#, Kang, Y., Chen, G., Jiang, F.* Long-term feeding of elemental sulfur alters microbial community structure and eliminates mercury methylation potential in sulfate-reducing bacteria abundant activated sludge. Environmental Science & Technology, 2018, 52(8), 4746-4753.
  15. Sun, R.#, Zhang, L.#, Zhang, Z., Chen, G.-H., Jiang, F.* Realizing high-rate sulfur reduction under sulfate-rich conditions in a biological sulfide production system to treat metal-laden wastewater deficient in organic matter. Water Research, 2018, 131, 239-245.