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  1. Lanzhou Xu, Xin Jin*, Wenlong Xu, Mengwen Liu, Caitong Shi, Junwei Huang, Jiejing Yuan, Pengkang Jin*, Xiaochang C. Wang. Highly efficient phosphorus removal by a novel prolonged stirring pelleting coagulation for sludge water treatment [J]. Journal of Water Process Engineering, 2024, 64: 105678.

  2. Yadong Wang, Yabo Shang, Keqian Li, Juan Shi, Shiyi Hu, Pengkang Jin*, Xin Jin*, Xiaochang C. Wang. Enhanced simultaneous phosphate recovery and organics removal by a nucleation crystallization pelleting process [J]. Separation and Purification Technology, 2024, 349: 127721.

  3. Xin Jin, Yabo Shang, Zhen Qian, Lanzhou Xu, Mengwen Liu, Shiyi Hu, Yadong Wang, Lu Xu, Xue Bai, 
    Xuan Shi, Pengkang Jin*, Xiaochang C. Wang. Prolonged stirring pelleting coagulation for the enhanced treatment of fresh leachate: Removal performance and floc characteristics [J]. Separation and Purification Technology, 2024, 353: 128365.

  4. Xin Jin, Mengwen Liu, Siyu Li, Chao Yang, Shiyi Hu, Yabo Shang, Keqian Li, Xue Bai, Lu Xu, Xuan Shi, 
    Pengkang Jin*. Novel use of the electrocatalytic oxidation process with Fe-DSA dual anode configuration for leachate treatment: Significance of in situ ferrate generation [J]. Journal of Cleaner Production, 2024, 457: 142490.

  5. Shiyi Hu, Xin Jin*, Mengwen Liu, Yao Li, Yadong Wang, Yixiong Wei, Pengkang Jin*, Xiaochang C Wang. Enhanced removal strategy towards organic matter with low coagulability: Immediate entrapment and complexation of oxidized intermediates by the hybrid ozonation-coagulation process [J]. Journal of Hazardous Materials, 2024, 465: 133288.

  6. Yukai Zong, Xin Jin*, Yao Li, Yabo Shang, Yadong Wang, Pengkang Jin*, Xiaochang C Wang, Fengxiang Guo, Dangyong Li. The coagulation behavior and mechanism of low-coagulability organic matter (LCOM) [J]. Separation and Purification Technology, 2024, 328: 125055.

  7. Xin Jin, Yixiong Wei, Shiyi Hu, Keqian Li, Lanzhou Xu, Yabo Shang, Yukai Zong, Xuan Shi, Lu Xu, Xue Bai, Pengkang Jin*, Xiaochang C Wang. Significance of ozonation on surfactant-polymer flooding produced water coagulation: Water quality deterioration inhibition, high-standard reinjection and mechanism [J]. Separation and Purification Technology, 2024, 328: 125035.

  8. Xin Jin, Mengwen Liu, Yukai Zong, Shiyi Hu, Yao Li, Lu Xu, Xue Bai, Xuan Shi, Pengkang Jin*, Jina Song, Xiaochang C Wang. Unraveling the over-oxidation inhibition mechanism during the hybrid ozonation-coagulation process: Immediate entrapment and complexation between intermediate organic matter and coagulants [J]. Water Research, 2023, 232: 119692.

  9. Xin Jin, Keqian Li, Yixiong Wei, Yabo Shang, Lanzhou Xu, Mengwen Liu, Lu Xu, Xue Bai, Xuan Shi, Pengkang Jin*, Jina Song, Xiaochang C Wang. Polymer-flooding produced water treatment using an electro-hybrid ozonation-coagulation system with novel cathode membranes targeting alternating filtration and in situ self-cleaning [J]. Water Research, 2023, 233: 119749.

  10. Xin Jin, Lei Zhang, Mengwen Liu, Shiyi Hu, Zhuodi Yao, Jingwen Liang, Rui Wang, Lu Xu, Xuan Shi, Xue Bai, Pengkang Jin*, Xiaochang C. Wang. Characteristics of dissolved ozone flotation for the enhanced treatment of bio-treated drilling wastewater from a gas field [J]. Chemosphere, 2022, 298: 134290.

  11. Xin Jin,Xinyue Xie,Shaohua Zhang,Chao Yang,Lu Xu,Xuan Shi,Pengkang Jin*,Xiaochang C. Wang. Insights into the electro-hybrid ozonation-coagulation process–Significance of connection configurations and electrode types [J]. Water Research, 2021, 204: 117600.

  12. Xin Jin,Shaohua Zhang,Shengjiong Yang,Yukai Zong,Lu Xu,Pengkang Jin*,Chao Yang,Shiyi Hu,Yao Li,Xuan Shi,Xiaochang C. Wang. Behaviour of ozone in the hybrid ozonation-coagulation (HOC) process for ibuprofen removal: Reaction selectivity and effects on coagulant hydrolysis [J]. Science of The Total Environment, 2021, 794: 148685.

  13. Xin Jin,Xinyue Xie,Yuguo Liu,Yong Wang,Rui Wang,Pengkang Jin*,Chao Yang,Xuan Shi,Xiaochang C. Wang,Huining Xu. The role of synergistic effects between ozone and coagulants (SOC) in the electro-hybrid ozonation-coagulation process [J]. Water Research, 2020, 177: 115800.

  14. Xin Jin,Rui Wang,Pengkang Jin*,Xuan Shi,Yong Wang,Lu Xu,Xiaochang Wang,Huining Xu. How can accumulated organics and salts deteriorate the biological treatment unit in the printing and dyeing wastewater recycling system? [J]. Chemical Engineering Journal, 2020, 413:127528.

  15. Yong Wang,Xin Jin*,Shengjiong Yang,Gen Wang,Lu Xu,Pengkang Jin*,Xuan Shi,Yong Shi,Interactions between flocs and bubbles in the separation zone of dissolved air flotation system [J]. Science of The Total Environment,2020,143222.

  16. Pengkang Jin*,Xin Jin*,Viggo A. Bjerkelund,Stein W. Osterhus,Xiaochang C. Wang,Lei Yang. A study on the reactivity characteristics of dissolved effluent organic matter (EfOM) from municipal wastewater treatment plant during ozonation [J]. Water Research, 2016, 88: 643-652.

  17. Xin Jin,Pengkang Jin*,Rui Hou,Lei Yang,Xiaochang C. Wang. Enhanced WWTP effluent organic matter removal in hybrid ozonation-coagulation (HOC) process catalyzed by Al-based coagulant [J]. Journal of Hazardous Materials, 2017, 327: 216-224.

  18. Xin Jin, Yuguo Liu, Yong, Wang, Shaohua Zhang, Weijie Zhang, Pengkang Jin*, Lu Xu, Xuan Shi, Xiaochang C. Wang, Shiwen Lv. Towards a comparison between the hybrid ozonation-coagulation (HOC) process using Al- and Fe-based coagulants: Performance and mechanism, Chemosphere, 2020, 253: 126625.

  19. Xin Jin, Yong Wang, Weijie Zhang, Pengkang Jin*, Xiaochang C. Wang, Lijie Wen. Mechanism of the hybrid ozonation-coagulation (HOC) process: Comparison of preformed Al13 polymer and in situ formed Al species, Chemosphere, 2019, 229: 262-272.

  20. Xin Jin, Weijie Zhang, Rui Hou, Pengkang Jin*, Jina Song, Xiaochang C. Wang. Tracking the reactivity of ozonation towards effluent organic matters from WWTP using two-dimensional correlation spectra, Journal of Environmental Sciences, 2019, 76: 289-298.

  21. Xin Jin, Wei Wang, Shuai Wang, Pengkang Jin*, Xiaochang C. Wang, Wushou Zhang, Weijun An, Yong Wang. Application of a hybrid gravity-driven membrane filtration and dissolved ozone flotation (MDOF) process for wastewater reclamation and membrane fouling mitigation, Journal of Environmental Sciences, 2019, 81: 17-27.

  22. Xin Jin, Yong Shi, Rui Hou, Weijie Zhang, Pengkang Jin*, Xiaochang Wang. Role of Al-based coagulants on a hybrid ozonation-coagulation (HOC) process for WWTP effluent organic matter and ibuprofen removal, Environmental Science: Water Research & Technology, 2019, 5: 599-608.

  23. Xin Jin, Weijie Zhang, Zhonglun Ji, Lihui Zhou, Pengkang Jin*, Xiaochang C. Wang, Yaoyao Zhang. Application and mechanism of nucleation-induced pelleting coagulation (NPC) in treatment of fracturing wastewater with high concentration of dissolved organic matter, Chemosphere, 2018, 211: 1082-1090.

  24. Xin Jin*, Pengkang Jin, Xiaochang Wang. A study on the effects of ozone dosage on dissolved-ozone flotation (DOF) process performance. Water Science and Technology, 2015, 71(9): 1423-1428.

  25. Xin Jin, Xiurong Zhu, Pengkang Jin*, Xiaochang C. Wang. Transformation of clofibric acid in sequencing batch reactor and microbial characteristics. Desalination and Water Treatment, 2018, 129:  345-350.

  26. 金鑫, 刘梦稳, 谢新月, 魏一雄, 宋吉娜, 金鹏康*, 王晓昌. 电凝聚臭氧化耦合工艺混凝剂水解形态分析—基于单/双电极排布[J]. 中国环境科学, 2022, 42(04): 1643-1651.

  27. 金鑫, 侯瑞, 宋吉娜, 金鹏康*, 王晓昌. 基于2D-COS分析的难凝聚有机物臭氧化特性研究 [J]. 中国环境科学, 2018, 3: 923-928.

  28. 金鑫, 金鹏康*, 孔茜, 章佳昕, 王晓昌. 污水厂二级出水溶解性有机物臭氧化特性研究 [J]. 中国环境科学, 2015, 10: 2985-2990.

  29. 金鑫, 金鹏康*, 孔茜, 白雪, 王晓昌. 基于PARAFAC分析的二级出水DOM臭氧化特性研究 [J]. 中国环境科学, 2015, 2: 427-433.

  30. 金鑫,许建军,解明媛,王晓昌,金鹏康*,五氯酚的臭氧催化氧化特性 [J]. 环境化学,2013,32(4):572-576.

  31. 金鑫,史彩通,许兰洲,岳雯,商亚博,黄俊玮,许路,石烜,白雪,宋吉娜,金鹏康*,油田废水的混凝处理技术研究进展 [J]. 工业水处理,2024,44(3): 1-9.

  32. 金鑫,魏一雄,刘梦稳,史勇,金鹏康*, 气浮工艺中气载絮体尺寸分布及其浮力效率研究 [J]. 中国给水排水,2024,40(5): 37-42. 

  33. 宋吉娜,岳雯,同霄,许兰洲,王亚东,商亚博,金鑫*,金鹏康,采出水的臭氧气浮-核晶造粒处理与再生利用特性研究 [J]. 工业水处理,2024,DOI:10.19965/j.cnki.iwt.2023-1198.

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  1. 一种可同时过滤与反洗的污水处理装置及污水处理方法,ZL 202210632377.3,金鑫,金鹏康,许路,石烜,白雪
  2. 基于重力驱动过滤的臭氧-混凝污水处理装置,ZL202011352873.0,金鑫,金鹏康
  3. 机械搅拌臭氧气浮一体化装置,ZL202010044218.2,金鑫,金鹏康,张少华,王锐
  4. Composite ozone flotation integrated device,US2020/0147621,Pengkang Jin, Xin Jin, Rui Wang
  5. 一种利用恒压微气泡发生器供气的臭氧气浮装置及方法,ZL201710725959.5,金鑫,金鹏康,王锐,王丹,蒋丹丹
  6. 一种臭氧气浮工艺中高效自动排渣装置与方法,ZL201710562393.9,金鑫,金鹏康,王锐,侯瑞
  7. 一种低能耗膜臭氧气浮一体化装置,ZL201510512288.5,金鹏康,金鑫,韩冬
  8. 一种低能耗浮力推进式刮渣装置,ZL201610136804.3,金鹏康,金鑫,韩冬,侯瑞,张伟,张琼华
  9. 一种城市污水管道沉积物取样设备,ZL201210393212.1,金鹏康,金鑫,王宝宝,郭海泉,郝晓宇
  10. 一种低能耗自动清洗器壁的气浮结构,ZL201610137171.8,金鹏康,金鑫,韩冬,王帅
  11. 一种微气泡静态立体成像观测装置,ZL201610905671.1,金鹏康,金鑫,刘颖
  12. 可改变微气泡臭氧-混凝-气浮工艺中臭氧投加顺序的方法及装置,ZL201310654568.0,金鹏康,金鑫,任武昂,王先宝,韩冬,孔茜
  13. 一种多级臭氧气浮一体化装置,ZL201410616487.6,金鹏康,金鑫,胡晓辉,杭建春,王自元,魏哲超
  14. 一种复合式臭氧气浮一体化装置,ZL201710573796.3,金鹏康,金鑫,王锐
  15. 一种径向结合多级臭氧气浮装置,ZL201610903008.8,金鹏康,金鑫,韩冬,王帅
  16. 一种气浮微气泡动态观测及调控系统,ZL201610905619.6,金鹏康,金鑫,刘颖,韩冬
  17. 一种电解诱导臭氧气浮一体化装置,ZL201611111661.7,金鹏康,金鑫,任武昂,石烜,胡晓辉,杭建春
  18. 一种基于虹吸原理的多级臭氧气浮工艺排渣装置,ZL201710725932.6,金鹏康,王丹,金鑫,蒋丹丹,王锐
  19. 一种低浓度有机物的核晶凝聚方法,ZL201310690137.X,金鹏康,王晓昌,任武昂,金鑫
  20. 一种自旋式多级布气旋流曝气器,ZL201610137184.5,金鹏康,韩冬,金鑫,郑莹
  21. 电诱导凝聚臭氧气浮-催化氧化多元耦合水处理系统与方法,ZL201611110857.4,金鹏康,任武昂,金鑫,石烜
  22. 一种催化臭氧化-臭氧气浮一体化装置,ZL201710726484.1,金鹏康,王锐,金鑫,王丹,蒋丹丹