第一作者最具影响力论文：

1. Xuan Shi, Jin Zhang, Qize Wang, Kai Wang, Jianshuang Han, Yilian Hui, Xin Jin, Pengkang Jin*,A new perspective of sediment layering scour and migration under the coupled effects of particle distribution and bio-viscosity–cavitation erosion. Science of the Total Environment, 2024, 952, 175929.

2. Xuan Shi, Jin Zhang, Qize Wang, Kai Wang, Jianshuang Han, Yilian Hui, Xin Jin, Pengkang Jin*,The sewer advances: How to select eco-friendly pipe materials for environmental protection. Science of the Total Environment, 2024, 952, 175853.

3.  Xuan Shi, Jianshuang Han, Yilian Hui, Yulei Chi,  Yuxuan Hou, Xin Jin, Pengkang Jin*, Characteristics of fungi formation in urban sewer at different flow conditions: Distribution, metabolism, and pathogenicity.  Chemosphere, 2024, 351, 141159.

4.  Xuan Shi, Dongwei Xu, Yaxin Chen, Bo Ren, Xin Jin, Pengkang Jin*, Formation characteristics of bacteria and fungi in sewers: In terms of signal molecule generation. Science of the Total Environment, 2023, 903, 166475.

5. Xuan Shi, Yuxuan Hou, Bo Ren, Dongwei Xu, Xin Jin, Xiaochang C. Wang, Pengkang Jin*, Metagenomics analysis of ecosystem integrating methane and sulfide generation in urban sewer systems. Journal of Cleaner Production, 2022, 382, 135372.

6. Xuan Shi, Bo Ren, Xin Jin, Xiaochang Wang, Pengkang Jin*, Metabolic hazards of pharmaceuticals and personal care products (PPCPs) in sewers. Journal of Hazardous Materials, 2022, 432, 128539.

7. Xuan Shi, Jiameng Tian, Le Kang, Bo Ren, Xin Jin, Xiaochang Wang, Pengkang Jin*, Evaluating the oxidation inhibition of sulfide in urban sewers using a novel quantitative method. Chemosphere, 2022, 296, 133958.
8. Bo Ren¹, Xuan Shi¹ (共同一作), Yulei Chi, Tong Ren, Xin Jin, Xiaochang Wang, Pengkang Jin*. A comprehensive assessment of fungi in urban sewer biofilms: Community structure, environmental factors, and symbiosis patterns. Science of the Total Environment, 2022, 806, 150728.
9. Yulei Chi¹, Xuan Shi¹ (共同一作), Pengkang Jin*, Xiaochang Wang, Tong Ren, Bo Ren, Xin Jin. Enhanced nitrogen removal by partial nitrification-anammox process with a novel high-frequency micro-aeration (HFMA) mode: Metabolic interactions among functional bacteria. Bioresource Technology, 2021, 342, 125917.
10. Pengkang Jin, Bo Ren, Xiaochang C. Wang, Xin Jin, Xuan Shi*, Mechanism of microbial metabolic responses and ecological system conversion under different nitrogen conditions in sewers. Water Research, 2020, 186, 116312.
11. Xuan Shi, Ge Gao, Jiameng Tian, Xiaochang Wang, Xin Jin, Pengkang Jin*, Symbiosis of sulfate-reducing bacteria and methanogenic archaea in sewer systems. Environment International, 2020, 143, 105923.
12. Xuan Shi, Yi Yao, Nan Zhao, Xin Jin, Pengkang Jin*, Xiaochang Wang, Guanghua Wang, Characteristics of flow regime adjustment enhancing carbon source recovery in activated primary sedimentation tank. Chemosphere, 2020, DOI: https://doi.org/10.1016/j.chemosphere.2020.126405.
13. Xuan Shi, Langtao Sang, Xiaochang Wang, Pengkang Jin*. Pollutant exchange between sewage and sediment in urban sewer system. Chemical Engineering Journal, 2018, 351: 240-247.
14. Xuan Shi, Huu Hao Ngo, Langtao Sang, Pengkang Jin*, Xiaochang Wang, Guanghua Wang. Functional evaluation of pollutant transformation in sediment from combined sewer system. Environmental Pollution, 2018, 238: 85-93.
15. Pengkang Jin*, Xuan Shi, Guangxi Sun, Lei Yang, Yixiao Cai, Xiaochang Wang. Co-variation between distribution of microbial communities and biological metabolism of organics in urban sewer systems. Environmental Science and Technology, 2018, 52: 1270-1279.
16. Bo Ren, Xuan Shi, Xin Jin, Xiaochang Wang, Pengkang Jin*. Comprehensive evaluation of pharmaceuticals and personal care products (PPCPs) in urban sewers: Degradation, intermediate products and environmental risk. Chemical Engineering Journal, 2021, 404: 127024.
17. Pengkang Jin*, Yonggang Gu, Xuan Shi, Xiaochang Wang, Non-negligible greenhouse gases from urban sewer system. Biotechnology for Biofuels, 2019, 12(1), 100.
18. Xiurong Zhu, Xuan Shi, Xianbao Wang, Xiaochang Wang, Pengkang Jin*. Anaerobic fermentation of excess sludge at different pHs: characterize by acidogenesis capability and microbial communities structure shift. Desalination and Water Treatment, 2017, 81: 59-66.
19. Qionghua Zhang, Pengkang Jin, Huu Hao Ngo, Xuan Shi, Shengjiong Yang, Xiaochang Wang*, Wenna Yang, Lei Yang. Transformation and utilization of slowly biodegradable organic matters in biological sewage treatment of anaerobic anoxic oxic systems. Bioresource Technology, 2016, 218: 53-61.
20. Peiyao Zhang, Xuan Shi, Tong Zhang, Pengkang Jin*. Bioproduction of short chain fatty acids in primary and excess sludge fermentation: performance and microbial community structures comparison. Journal of Water Sustainability. 2016, 6(3): 99-111
21. 石烜，田嘉盟，任博，高歌，金鑫，王晓昌，金鹏康*. 污水管网汇流区域流态变化对沉积污染物的分布及转化影响特性. 中国环境科学，2021, 41(7): 3275-3282.
22. 石烜，高歌，任博，田嘉盟，金鑫，王晓昌，金鹏康*. 多点汇流下污水管网污染物迁变规律及其机制研究. 中国环境科学，2021, 2021, 41(8): 3615-3625.
23. 韩剑霜, 石烜, 张建峰, 惠依莲, 金鹏康*. 污水管道沉积物分层冲刷的起动规律及其污染贡献特性. 中国环境科学，2023. 43(10): 5208-5213.
24. 惠依莲, 石烜, 张琼华, 韩剑霜, 金鹏康*. 污水管网中真菌的生长规律及致病性真菌风险评估. 环境科学学报，2023. 43(9): 102-109.
25. 刘伟, 石烜，徐栋伟, 金鑫, 金鹏康*. 流速对污水管道中甲烷与硫化物生成的影响. 中国环境科学, 2023, 43(6), 2938-2947.
26. 任俊豪, 殷伟民, 贺酰淑, 石烜, 金鑫, 金鹏康*. 水力条件对污水管网沉积层中SRB与MA的影响. 中国给水排水, 2022, 38(23), 17-22.
27. 刘丹，石烜，薛甜，赵楠，任博，金鹏康*. 城市污水交汇管流模型构建与管道污染物运动特性研究. 给水排水，2020. 46(4): 153-159.
28. 薛甜，石烜，赵楠，任博，刘丹，金鹏康*. 污水管网不同汇流条件下沉积物运移分布的规律研究. 中国给水排水, 2020, 已录用.
29. 刘鹤蒙, 石烜, 金鹏康*, 王晓昌. 城市污水管网中胞外聚合物的沿程变化特性. 中国给水排水, 2019, 35(5): 1-6.
30. 姚翔译, 石烜, 桑浪涛, 金鹏康*, 王晓昌. 城市污水管网中不同生化作用的基质流向. 环境科学, 2018, 39(9): 4242-4248.
31. 桑浪涛, 石烜, 张彤, 付博文, 金鹏康*. 城市污水管网中污染物冲刷与沉积规律.环境科学, 2017, 38(5): 234-240.
32. 城市污水管网水质转化虚拟仿真实验教学软件, 2019, 2019SR0879861
33. 农村污水生物强化处理技术与原理. 西安交通大学出版社, 2024, ISBN: 978-7-5693-3815-7
34. 城市污水管网污染物迁移转化特性. 科学出版社, 2018，ISBN: 9787030535450

授权国家发明专利：

  《一种管道冲刷方法及装置》，专利号：ZL 202110816301.1，专利权人：西安交通大学

  《污水管网病毒感染风险预测方法及装置》，专利号：ZL 202110816313.4，专利权人：西安交通大学

  《污染物浓度的预测方法、装置、电子设备和介质》，专利号：ZL 202110816312.X，专利权人：西安交通大学

  《PPCPs类有机污染物降解率预测模型构建方法及装置》，专利号：ZL 202110816323.8，专利权人：西安交通大学