孫飛雲

2006-2010 工學博士學位（土木工程，市政方向），香港大學

學位論文：膜生物反應器套用於生物法除磷脫氮過程研究：處理效果、膜污染機理及其控制

2003-2006 工學碩士學位（環境工程），北京交通大學

學位論文：好氧硝化顆粒污泥反應器分離尿液穩定化處理試驗研究

1999-2003 工學學士學位（環境工程），太原理工大學

2022.12-至今 教授，博士生導師，哈爾濱工業大學（深圳）

2016.05-2021.12 副教授，博士生導師，哈爾濱工業大學（深圳）

2014.08-2016.04 副教授，碩士生導師，哈爾濱工業大學深圳研究生院

2013.06-2014.07 助理教授，碩士生導師，哈爾濱工業大學深圳研究生院

2011.06-2013.05 博士後，哈爾濱工業大學深圳研究生院

2021年8月至今 SCI期刊《Chinese Chemical Letter》（JCR1區） 青年編委；

2021年11月至今 SCI期刊《Separation》（JCR2區） 客座主編；

2021年10月至今 國際水協會膜技術專業委員會中國分會理事；

2020年6月至今 城市水資源與水環境國家重點實驗室固定成員；

2019年至今 中國海洋學會海水淡化與水再利用分會第二屆青年專家委員會委員；

2015年至今，國際水協會（IWA）中國青年委員會委員

2013年至今，國際水協（IWA）會員

2015年至今，國家註冊環保工程師

現為Water Research, Journal of Membrane Science, Journal of Clean Production, Applied Biotechnology and Biochemistry, Journal of Chemical Technology and Biotechnology, Environmental Technology, Process Biochemistry等期刊審稿人。

膜分離過程與最佳化，污水處理與資源化、飲用水深度處理、城市雨水利用技術等

（1）2023~2026年，國家自然科學基金項目“水體PFASs遷移轉化機制”，主持；

（2）2021~2023年，深圳市科技計畫-穩定支持計畫（面上項目）“E-AnCMBR系統及其效能”，主持

（3）2020年~2021年，山西省重點研發計畫項目“垃圾滲濾液製備污水廠碳源技術研發”，主持

（4）2020~2024年，國家自然科學基金項目“膜結構影響MBfR異向傳質”，主持；

（5）2020~2022年，深圳市科技創新委員會“坪山河流域全天候水環境達標技術集成與套用示範”，參與；

（6）2017~2020年，國家自然科學基金面上項目“陶瓷膜的原位膜污染控制與機制研究”，主持；

（7）2017~2019年，廣東省自然科學基金（自由申請）項目“納濾膜界面的生物型污染控制”，主持；

（8）2018~2021年，深圳市基礎研究項目“納濾膜在污廢水深度處理的套用研究”，主持；

（9）2015~2019年，深圳市水務局技術研發項目“河道生態修復效果監測與評估”，主持；

（10）2018~2019年，深圳市水務局科技創新項目“深圳灣項目水質變化及控制策略研究”，主持；

（11）2019~2020年，深圳市市政設計院項目“黑臭底泥生態修復技術研發”，主持；

（12）2019~2019年，深圳市市政設計研究院有限公司項目“深圳市觀瀾河流域面源污染特徵和綜合控制策略研究”，主持；

（13）2016~2018年，深圳市基礎研究項目“生物電化學陶瓷膜MBR系統的運行及套用”，主持；

（14）2014~2017年，國家自然科學基金青年基金項目“納濾膜濃差極化行為解析、控制機制及套用”，主持；

（15）2017~2019年，深圳市技術攻關項目“海綿城市監測及評估系統研發”，主持；

（16）2014~2016年，深圳市基礎研究項目“改性製備抑菌抗污染型超濾膜在水處理中的套用”，主持；

（17）2012~2015年，國家科技重大專項“水體污染控制與治理”子課題，南方低影響開發示範區和示範工程監測與評估，子課題負責人，主持；

（18）2012~2014年，廣東省自然科學基金（博士啟動）項目：“正向滲透深度處理EfOM過程膜污染機理與控制研究”，主持；

（19）2012~2013年，中國博士後基金面上項目二等資助項目：“正向滲透處理EfOM過濾行為與膜通量衰減驅動機制研究”，主持；

（20）2013~2015年，深圳市孔雀計畫技術創新資助項目：“高效同步脫氮除磷MBR系統開發與膜污染控制策略研究”，主持；

（21）國家自然科學基金，“發酵產氫宏基因組[FeFe]-氫酶篩選與體外多酶體系制氫研究”，第一合作完成人；

（22）國家自然科學基金，“污泥底泥化學與生化修復”，第一合作完成人；

（23）深圳市科技研發基金基礎研究項目，“深圳灣海岸帶微生物診斷研究”，第一合作完成人。

1. 孫飛雲，董文藝，李譜，袁佳佳，李繼，餘波. 一種景觀生態型分散式污水處理工藝；

2. 孫飛雲，李譜，董文藝，陳立春，李朋飛，邵明非. 一種同步脫氮除磷AAO-MBR工藝；

3. 孫飛雲，李譜，董文藝，李朋飛，陳立春，邵明非. 一種同步脫氮除磷膜生物反應器裝置；

4. 孫飛雲，李譜，董文藝，袁佳佳，陳立春，李朋飛. 一種膜污染控制與污泥減量A2O2-MBR污水處理工藝；

5. 董文藝, 孫飛雲, 張泉, 李繼, 郭曦, 陳同道. 一種兩段式膜法飲用水深度處理工藝及系統，CN 201110380992.1；

6. 李久義, 王連俊, 王錦, 許兆義, 李進, 楊成永, 姜棟, 孫飛雲. 一種新型序批式反應器污水處理方法，CN 200410009370.8；

7. 董文藝, 劉軍, 吳建立, 李梓龍, 孫飛雲, 李繼, 杜紅: 一種具有削峰除污能力的雨水口. 2013年1月30日: CN 201210370448.3；

8. 王宏傑, 董文藝, 孫飛雲, 劉軍, 張玉濤. 一種無臭氣釋放的植物-活性污泥組合污水處理裝置.（ZL2013105367099發明）；

9. 孫飛雲，董文藝，李譜，袁佳佳，李繼，餘波. 一種景觀生態型分散式污水處理工藝.發明專利號：ZL 201410277564.X；

10.孫飛雲，董文藝，李譜，袁佳佳，李繼，餘波. 一種景觀生態型分散式污水處理裝置.實用新型專利號：ZL 201420331645.9；

11.孫飛雲，李譜，董文藝，李朋飛，陳立春，邵明非. 一種同步脫氮除磷膜生物反應器裝置.實用新型專利號：ZL 2014 4 0354752. 3；

12.孫飛雲，李譜，董文藝，李朋飛，陳立春，邵明非. 一種同步脫氮除磷AAO-MBR 工藝及其裝置.發明專利號：ZL 201410303429.8；

13.孫飛雲，岳三峰，尚文濤，董文藝. 一種水處理系統.申請號：2017102823276；

14.孫飛雲，王明明，尚文濤，董文藝. 一種膜生物反應系統.申請號：2017102546856；

15.孫飛雲、宋康、席玉鶴、王宏傑、董文藝. 一個可調容積型改良多級AO工藝模擬軟體；

16.孫飛雲，李智勤，李領明，蔡森林，張攀，陸曉春，黎莉. 生活垃圾快速機械脫除水的預處理系統及其處理方法.申請號：CN 106430817 A；

17.孫飛雲，孫婷婷，董文藝，李繼. 一種改性超濾膜及其製備方法.申請號：CN 106390775 A；

18.孫飛雲，趙傑，董文藝，劉彤宙. 一種污水處理方法以及系統.申請號：201610332946.7；

19.孫飛雲，尚文濤，董文藝，李繼，岳三峰. 控制濃差極化層形成的方法、納濾膜及其製造方法.申請號：201610389220.7；

1. Dong Z.J., Liu Y., Sun F.Y., Yin W.C., Construction and management for urban water reclamation and facilities, 2016. Harbin Institute Technology Press, Harbin, China.

2. 《景觀生態-活性污泥複合系統及其污水處理技術》-中國建築工業出版社-主編

3. 《電鍍廢水處理技術與工藝研究》-中國建築工業出版社-副主編

4. 《城鎮污水處理膜生物反應器（MBR）工藝與膜污染控制技術》-哈爾濱工業大學出版社-主編

5. 《城市再生水利用與再生水設施的建設管理》-哈爾濱工業大學出版社-參編

論文：

1. Yang, SW; Song, Z; Li, P; Sun, FY;* Zeng, HJ; Dong, WY; Feng, XC*, Ren NQ. Biofouling initiation on a microfiltration membrane related to deposition and adhesion of bacteria from the perspective of interface interactions, Desalination, (Accepted).

2. Song, Z; Liao, RF; Wang, MM; Zhang, JJ; Dong, ZJ; Wen, Z; Dong, WY; Sun, FY*. Biosurfactant-driven synergic roles to accelerate biofilm formation in an anaerobic moving bed biofilm reactor (MBBR): A comprehensive analysis on meso and micro scale, Journal of Cleaner Production, 373, 2022, 133930.

3. Su, XL; Xing, DY ; Song, Z; Dong, WY ; Zhang, MD ; Feng, L ; Wang, MM; Sun, FY .Understanding the effects of electrical exposure mode on membrane fouling in an electric anaerobic ceramic membrane bioreactor[J]. Journal of Membrane Science,2022,659,120756.

4. Li, M; Luo, JW ; Lu, JJ ; Shang, WT ; Mu, JL ; Sun, FY*; Dong, ZJ ; Li, XY .A novel nanofibrous PAN ultrafiltration membrane embedded with ZIF-8 nanoparticles for effective removal of Congo red, Pb(II), and Cu(II) in industrial wastewater treatment[J]. Chemosphere,2022,304,135285.

5. Shang, WT; Yang, SW; Liu, WJ; Wong, PW; Wang, R; Li, XY; Sheng,GP; Lau,W; An, AK; Sun, FY*. Understanding the influence of hydraulic conditions on colloidal fouling development by using the micro-patterned nanofiltration membrane: Experiments and numerical simulation[J]. Journal of Membrane Science, 2022,654,120559.

6. Mohan, Brij; Xing, TT; Kumar, Sandeep; Kumar, Suresh; Ma, SX; Sun, FY; Xing, DY; Ren, P. A chemosensing approach for the colorimetric and spectroscopic detection of Cr3+, Cu2+, Fe3+, and Gd3+ metal ions[J]. Science of the total environment, 2022, 845,1572421.

7. Sun, FY; Zeng, HJ; Tao, SY; Huang, YX; Dong, WY; Xing, DY. Nanofiltration membrane fabrication by the introduction of polyhedral oligomeric silsesquioxane nanoparticles: Feasibility evaluation and the mechanisms for breaking "trade-off" effect[J]. Desalination, 2022, 527, 115515.

8. Wang, MM; Sun, FY; Zeng, HJ; Su, XL; Zhou, GF; Liu, H; Xing, DY. Modified Polyethersulfone Ultrafiltration Membrane for Enhanced Antifouling Capacity and Dye Catalytic Degradation Efficiency[J]. Separations, 2022, 9(4),92.

9. Deng, Y; Xu, W; Zeng, QH; Sun, FY; Wang, F; Li, YJ. Effects of temperature and relative humidity on soil-air partition coefficients of organophosphate flame retardants and polybrominated diphenyl ethers[J]. Chemosphere, 2022, 291(1),132716.

10. Peng, L; Xu, W; Zeng, QH; Sun, FY; Guo, Y; Zhong, S; Wang, F; Chen, D. Exposure to perfluoroalkyl substances in waste recycling workers: Distributions in paired human serum and urine[J]. Environment International, 2022, 158,106963.

11. Zhao, Z; Wang, X; Zhu, G; Wang, F; Zhou, Y; Dong, WY; Wang, H; Sun FY; Xie, H. 2022. Enhanced removal of Cu-EDTA in a three-dimensional electrolysis system with highly graphitic activated biochar produced via acidic and K2FeO4 treatment. Chemical Engineering Journal, 430, 132661.

12. Lu, JJ; Shen, Q; Li, XY; Sun, FY*; Yi, JB; Dong WY; Yan, WJ; Du, L; Mu, JL. 2022. Surface-manipulated membranes to accelerate biofilm formation and to resist bacterial detachment in MBfR for aerobic methane oxidation coupled to denitrification[J]. Chemical Engineering Journal, 430: 132629.

13. Shen, Q; Xing, DY; Sun, FY*. 2022. Designed water channels and sieving effect for heavy metal removal by a novel silica-poly (ionic liquid) nanoparticles TFN membrane[J]. Journal of Membrane Science, 641: 119945.

14. Ma, JX; Xu, Y; Sun, FY*; Chen, XD; Wang, W*. Perspective for removing volatile organic compounds during solar-driven water evaporation toward water production[J]. Ecomat, 2021, 3(6), e12147.

15. Deng, Y; XC Wang，QZ C，Sun FY，Wang, F; YL B. Effects of temperature and relative humidity on soilair partition coefficients of organophosphate flame retardants and polybrominated diphenyl ethers. 2021. Chemosphere. 132716

16. Li, P; Miao, R; Wang, P; Sun, FY; Li, XY. 2021. Bi-metal oxide-modified flat-sheet ceramic membranes for catalytic ozonation of organic pollutants in wastewater treatment. Chemical Engineering Journal, 426, 131263.

17. Song, Z; Su, XL; Li, P; Sun, FY*; Dong, WY; Zhao, Z; Liao, R. 2021. Facial fabricated biocompatible homogeneous biocarriers involving biochar to enhance denitrification performance in an anoxic moving bed biofilm reactor. Bioresource Technology, 341, 125866.

18. Song, Z; Yang, SW; Li, P; Peng, W; Sun, FY*. 2021. Roles of initial bacterial attachment and growth in the biofouling development on the microfiltration membrane: From viewpoints of individual cell and interfacial interaction energy. Journal of Membrane Science, 638, 119723

19. Liu, S; Zhao, S; Liang, Z; Wang, F*; Sun, FY*; Chen, D. 2021. Perfluoroalkyl substances (PFASs) in leachate, fly ash, and bottom ash from waste incineration plants: Implications for the environmental release of PFAS. Science of The Total Environment, 795, 148468.

20. Sun, FY; Yang, JY; Shen, Q; Xing DY. 2021.Conductive polyethersulfone membrane facilely prepared by simultaneous phase inversion method for enhanced anti-fouling and separation under low driven-pressure[J]. Journal of Environmental Management, 297: 113363.

21. Xie, WY; Li, J; Sun, FY*; Dong, WY; Dong, Z. 2021. Strategy study of critical flux/threshold flux on alleviating protein fouling of PVDF-TiO2 modified membrane. Journal of Environmental Chemical Engineering, 9(5), 106148.

22. Li, P; Yang, C; Sun, FY; Li, XY. 2021. Fabrication of conductive ceramic membranes for electrically assisted fouling control during membrane filtration for wastewater treatment. Chemosphere, 280, 130794.

23. Shen, Q; Xing, D; Sun, FY*; Dong, WY; Shang, WT; Zhao, L; Dong, ZJ. 2021. Facile pyrrole oxidative polymerization with ionic liquid to modify ceramic membrane for sustainable fouling control. Journal of Environmental Chemical Engineering, 9(4), 105630.

24. Huang, X; Duan, C; Duan, W; Sun, FY; Cui, H; Zhang, S; Chen, X. 2021. Role of electrode materials on performance and microbial characteristics in the constructed wetland coupled microbial fuel cell (CW-MFC): A review. Journal of Cleaner Production, 126951.

25. Su, X; Yuan, JJ; Dong, WY; Sun, FY*; Wang, M; Dong, ZJ; Du, C. 2021. Organic and nitrogenous pollutants removal paths in vegetation activated sludge process (V-ASP) for decentralized wastewater treatment by using stable isotope technique. Bioresource Technology, 330, 124959.

26. Kumar, S; Liu, S; Mohan, B; Zhang, M; Tao, Z; Sun, FY; Ren, P. 2021. Fluorine-Containing Triazole-Decorated Silver (I)-Based Cationic Metal–Organic Framework for Separating Organic Dyes and Removing Oxoanions from Water. Inorganic Chemistry, 60(10), 7070-7081.

27. Dong, Z; Li, M; Chen, M; Gu, Y; Jiang, C; Sun, FY*. 2021. Formation of iodinated products in Fe (II)/peroxydisulfate (PDS) system. Water Supply, 21(3), 1016-1024.

28. 呂志超, 宋秀蘭, 席玉鶴, 蘇小莉, 董文藝, 孫飛雲*. 可調容積型多級AO工藝模擬仿真系統的構建及其穩定調控研究[J]. 現代化工, 2021, 41(04): 194-199.

29. Shang, WT; Li, X; Liu, W; Yue, S; Li, M; Sun, FY*; An, AK. 2021. Effective suppression of concentration polarization by nanofiltration membrane surface pattern manipulation: Numerical modeling based on LIF visualization. Journal of Membrane Science, 622, 119021.

30. Lu, JJ; Yan WJ; Shang WT; Sun, FY*. 2021. Simultaneous enhancement of nitrate removal flux and methane utilization efficiency in MBfR for aerobic methane oxidation coupled to denitrification by using an innovative scalable double-layer membrane. Water Research.194: 116936.

31. Xie, WY; Li, J; Sun, FY*; Dong, WY. 2020. Ultrasonication favors Tio₂ nano-particles dispersion in PVDF ultrafiltration membrane to effectively enhance membrane hydrophilicity and anti-fouling capability. Environmental Science and Pollution Research, 27(9):1-17

32. Li, M; Sun, FY*; Shang, WT; Zhang, XL; Dong, WY; Dong, ZJ; Zhao, SF.2020 Removal mechanisms of perfluorinated compounds (PFCs) by nanofiltration: Roles of membrane contaminant interactions. Chemical Engineering Journal. 2020. 126814

33. Dong, ZJ; Wang, F; Song, XL; Zhang, M; Jiang, CC; Sun, FY*; Li, M. 2020. Fe (II)- activated persulfate oxidation effectively degrades iodoform in water: influential factors and kinetics analysis. Arabian journal of chemistry. 2020. 01. 023.

34. Song, Z; Zhang, XB; Sun, FY; Ngo, HH？, Wenshan Guo, Haitao Wen, Chaocan Li, Zumin Zhang. 2020. Specific microbial diversity and functional gene (AOB amoA) analysis of a spongebased aerobic nitrifying moving bed biofilm reactor exposed to typical pharmaceuticals. Science of the Total Environment. 2020.140660

35. W.T. Shang, M. Li, L.C. Chen, F.Y. Sun*, Z. Dong. 2020. A fluorescence-based indicator for nanofiltration fouling propensity caused by effluent organic matter (EfOM). Process Biochem. 91, 260-270.

36. W.T. Shang, F.Y. Sun, W. Jia, J. Guo, S. Yin, P. W. Wong, A. K. An. 2020. High-performance nanofiltration membrane structured with enhanced stripe nano-morphology. J. Membr. Sci. 600, 117852.

37. W.Y. Xie, J. Li, F.Y. Sun*, W.Y. Dong. 2020. Ultrasonication favors TiO₂ nano-particles dispersion in PVDF ultrafiltration membrane to effectively enhance membrane hydrophilicity and anti-fouling capability. Environmental Science and Pollution Research, 2020, 27(9):9503-9519.

38. 陳鐵, 孫飛雲*, 楊淑芳, 陳立春, 熊向隕, 汪燕. 2020 基於SWAT模型的觀瀾河流域城市面源污染負荷量化及影響效應評估[J]. 環境工程學報, 14(10): 2866-2875.

39. 母家樂,盧建江,譚琴,周志鵬,宋姿,孫飛雲*,董文藝. 2020. 雨源型河道生態修複評價指標體系構建及套用[J].天津科技, 47(09):82-85.

40. 楊松文,陳鐵,周志鵬,董文藝,孫飛雲*,洪德松,張斌,孫丹平.海綿城市徑流指標評估監測網路的構建方法[J].環境工程學報,2020,14(11):3225-3233.

41. 周志鵬,陳鐵,楊松文,母家樂,王明明,董文藝,孫飛雲*.基於雨型的南方典型小流域城市降雨徑流污染特徵研究[J].天津科技,2020,47(09):86-92.

42. 陳鐵,周志鵬,楊松文,母家樂,蘇小莉,董文藝,孫飛雲*,張健君,楊淑芳,陳立春.南方典型小流域城市地表污染物特性研究[J].天津科技,2020,47(09):67-75.

43. J.Y. Yang, F.Y. Sun, L. Zhao, D.Y. Xing, W.Y. Dong, Z. Dong. 2020. High-conductivity microfiltration membranes incorporated with ionic liquids and their superior anti-fouling effectiveness.. Journal of Membrane Science, 2019, 603:117767.

44. Shang, WT Dong, ZJ; Li, M; Song, XL; Zhang, M; Jiang, CC; Sun, FY*. Degradation of diatrizoate in water by Fe(II)-activated persulfate oxidation[J]. Chemical Engineering Journal, 2019, 361:1333-1344

45. M. Li, F.Y. Sun, W.T. Shang, X. Zhang, W. Dong, T. Z. Liu, W. Pang. 2019. Theoretical studies of perfluorochemicals (PFCs) adsorption mechanism on the carbonaceous surface. Chemosphere. 235, 606-615.

46. W.T. Shang, R. Wang, W.Y. Dong, X.Y. Li, M. Li, L.Y. Zhao, S.W. Yang, F.Y. Sun*. 2019. Laser induced fluorescence (LIF) technique visualizes and characterizes concentration polarization and fouling layer in the cross-flow nanofiltration. Separation and Purification Technology. 212:520-527.

47. X. Lu , J. Yang, X. Li, F.Y. Sun , F. Wang, Y. Chao.2019.Effects of phase transformation on properties of alumina ceramic membrane: A new assessment based on quantitative X-ray diffraction (QXRD). Chemical Engineering Science.199, 349-358.

48. X. Huang, W.Y. Dong, H. Wang, F.Y. Sun, Y. Feng. 2019. Enhance primary sludge acidogenic fermentation with CaO2 addition: Investigation on soluble substrate generation, sludge dewaterability, and molecular biological characteristics. Journal of Cleaner Production. 228, 1526-1536.

49. 張文靜,劉彤宙,董文藝,尚文濤,孫飛雲.好氧顆粒污泥與膜生物反應器組合工藝處理城市生活污水[J].環境工程,2019,37(03):55-60.

50. 張文靜,劉彤宙,董文藝,孫飛雲.AGS-MBR組合工藝處理城市生活污水的運行參數最佳化[J].環境工程學報,2019,13(03):624-632.

51. Z.J. Dong, W.T. Shang, W.Y. Dong, L.Y. Zhao, M. Li, R. Wang, F.Y. Sun*. 2018. Suppression of membrane fouling in the ceramic membrane bioreactor (CMBR) by minute electric field. Bioresource Technology. 270:113-119.

52. W.Y. Xie, J. Li, T.T. Sun, W.T. Shang, W.Y. Dong, M. Li, F.Y. Sun*.2018. Hydrophilic modification and anti-fouling properties of PVDF membrane via in situ nano-particle blending. Environmental Science and Pollution Research. 25: 25227-25242.

53. Z.J. Dong, W.Y. Dong, F.Y. Sun*, C.C. Jiang.2018. Catalytic bromate removal from water by using activated carbon supported with ruthenium (AC/Ru) catalyst. Environmental Engineering Science. 35（3）: 176-184.

54. J.J. Yuan, W.Y. Dong, F.Y. Sun*, K. Zhao. 2018. Low temperature effects on nitrification and nitrifier community structure in V-ASP for decentralized wastewater treatment and its improvement by bio-augmentation. Environmental Science and Pollution Research. 7(25):6584-6595.

55. J. Chen, R. D. Tyagi, J. Li, X. Zhang, P. Drogui, F.Y. Sun.2018. Economic assessment of biodiesel production from wastewater sludge. Bioresource technology. 253, 41-48.

56. 董文藝,王安娜,吳桂楠,趙福祥,孫飛雲,張冠.二氧化氯發生器殘液處理方法研究與比較[J].安全與環境學報,2018,18(02):678-683.

57. W.T. Shang, F.Y. Sun*, L.C. Chen.2017. Nanofiltration fouling propensity caused by wastewater effluent organic matters and surface water dissolved organic matters. Environmental Technology. 1-12.

58. J.J. Yuan, W.Y. Dong, F.Y. Sun*, K. Zhao, C.H. Du, Shao Y.X. 2016.Bacterial communities and enzymatic activities in the vegetation activated sludge process (V-ASP) and related advantages by comparison with conventional constructed wetland. Bioresource Technology.220 , 341–351 .

59. J.J. Yuan,W.Y. Dong, F.Y. Sun*, P. Li , K. Zhao.2016.Treatment Performance and Mathematical Modelling of an Ecological Vegetation Activated Sludge Process (V-ASP) for Decentralized Wastewater Treatment, Environmental Science and Pollution Research. 23 (10) :10234-10246.

60. J.J. Yuan, W.Y. Dong, F.Y. Sun*, K. Zhao, P. Li.2016. Enhanced Heavy Metal Removal by Wetland Vegetations and its Significance for Vegetation-Activated Sludge Process Configuration. Desalination and Water Treatment. 57 (52) :1-8.

61. F.Y. Sun , P. Li ,J. Ji, H,J. Li.2015.Hybrid Biofilm-MBR for Minimization of Bulk Liquid-Phase Organic Substances and its Positive Effect on Membrane Permeability. Bioresource Technology, 2015. 198: 772-780.

62. F.Y. Sun , P. Li, L.C. Chen.2015.Simultaneous removal of organic and nitrogen in a post-denitrification membrane bioreactor (MBR) system and its influential factors, Current Environmental Engineering, 2(1), 4-10.

63. Q. Zhang, F.Y. Sun*, W.Y. Dong, G.M. Zhang, R.B. Han.2015.Micro-polluted surface water treatment and trace-organics removal pathway in a PAC-MBR system. Process Biochemistry.50(9): 1422-1428.

64. Q. Zhang, F.Y. Sun*, W.Y. Dong.2015.Nitrobenzene removal from micro-polluted water resource by a submerged MBR and the importance of activated sludge. Desalination and Water Treatment.57(24), 11300-11308.

65. Q. Zhang, F.Y. Sun*, W.Y. Dong.2015.Treatment of micro-pollutant water resource loaded with 2,4,6-trichlorophenol by an MBR. Desalination and Water Treatment.57(24), 11019-11028.

66. X.M. Lv, F.Y. Sun*, J. Li, C.L. Li ,J. Li.2015.Denitrifying phosphorus removal for simultaneous nitrogen and phosphorus removal from wastewater with low C/N ratios and microbial community structure analysis. Desalination and Water Treatment.57(4), 1890-1899.

67. 李譜,孫飛雲,董文藝,袁佳佳,李朋飛.景觀生態-SBR複合工藝生活污水處理效能與污泥性狀[J].環境工程學報,2015,9(12):5783-5787.

68. 劉軍,董文藝,李梓龍,孫飛雲.水質型雨水截污口設計與套用研究[J].建築經濟,2014(02):73-76.

69. F.Y. Sun, J.Li, X.M.Lv, Z.Y. Peng, P. Li , M.F. Shao.2014.Activated Sludge Filterability Improvement by Nitrifying Bacteria Abundance Regulation in an Adsorption Membrane Bioreactor (Ad-MBR). Bioresource Technology. 170: 230–238.

70. F.Y. Sun, W.Y. Dong, J. Li.2014.Membrane fouling mitigation by activated carbon addition in activated sludge filtration. International Journal of Environmental Technology and Management. 17(6): 459-468.

71. 周岩,李繼,呂小梅,孫飛雲,牛和新.吸附-預沉澱MBR工藝處理生活污水及膜污染控制效果[J].環境工程學報,2013,7(12):4648-4652.

72. 孫飛雲,李曉岩.浸沒式MBR中溶解性微生物產物聚集態演變影響膜污染機理研究[J].高校化學工程學報,2013,27(06):1064-1071.

73. 張真江,李繼,孫飛雲,呂小梅,王猛.曝氣生物濾池作為雙泥法硝化單元的中試研究[J].中國給水排水,2013,29(15):65-67+72.

74. F.Y. Sun, W.Y. Dong, J. Li , L.Y. Peng , H.J. Wang.2013.Aerobic denitrification coupled with methane oxidation in a membrane biofilm reactor: treatment performance and the effect of oxygen ventilation. Bioresource Technology. 145, 2–9.

75. F.Y. Sun, X.M. Wang,X.Y. Li.2013.An innovative membrane bioreactor (MBR) system for simultaneous nitrogen and phosphorus removal. Process Biochemistry. 48 (11), 1749–1756.

76. F.Y. Sun, X.M. Wang, X.Y. Li.2012.Change in the fouling propensity of sludge in membrane bioreactors (MBR) in relation to the accumulation of biopolymer clusters. Bioresource Technology. 102, 4718–4725.

77. F.Y. Sun, Y.J. Yang ,W.Y. Dong ,J. Li.2012. Granulation of Aerobic Nitrifying bacteria in a Sequencing Batch Reactor Treating Source Separated Urine. Applied Biotechnology and Biochemistry. 166 (8), 2114-2126.

78. 吳建立,孫飛雲,董文藝,王宏傑.基於SWMM模擬的城市內河區域雨水徑流和水質分析[J].水利水電技術,2012,43(08):90-94.

79. 楊亞靜,郭曦,孫飛雲,董紫君.城市內河河道中抗生素控制技術研究進展[J].水利水電技術,2012,43(08):62-65.

80. 王熙,孫飛雲,董文藝.用過氧化鈣控制城市河道底泥嗅味物質及氮磷釋放試驗研究[J].水利水電技術,2012,43(08):66-69.

81. 孫飛雲,林魯生,董紫君,董文藝.龍崗河幹流綜合治理工程生態修復設計與套用[J].水利水電技術,2012,43(08):103-106.

82. 林魯生,羅雅,劉彤宙,孫飛雲,吳小菁,董文藝.龍崗河幹流綜合治理工程與成效研究[J].水利水電技術,2012,43(08):1-4.

83. 羅雅,董文藝,孫飛雲,吳建立,李梓龍.初期雨水調蓄設施的最佳化設計——以龍崗河幹流綜合治理工程為例[J].水利水電技術,2012,43(08):15-19.

84. 郭曦,孫飛雲,董文藝,董紫君,林魯生.龍崗河幹流綜合治理工程景觀設計技術與套用研究[J].水利水電技術,2012,43(08):95-98.

85. F.Y. Sun, X.M. Wang , X.Y. Li.2011.Effect of biopolymer clusters on the fouling property of sludge from a membrane bioreactor (MBR) and its control by ozonation. Process Biochemistry. 46: 162-167.

86. F.Y. Sun, X.Y. Li.2011.Evaluation of the importance of various operating and sludge property parameters to the fouling of membrane bioreactors. Water Science & Technology.64(6), 1340–1346.

87. F.Y. Sun, X.M. Wang , X.Y. Li.2008.Visualization and characterization of biopolymer clusters in a submerged bioreactor. Journal of Membrane Science. 325, 691-697.

88. F.Y. Sun, C.Y.Yang, J.Y. Li , Y.J. Yang.2006. Influence of Different Substrates on the Formation and Characteristics of Aerobic Granules in Sequencing Batch Reactors. Journal of Environment Science. 18(5), 864-871.

89. F.Y. Sun, W.Y. Dong ,J. Li.2012.Stabilization of source-separated urine by biological nitrification process: treatment performance and nitrite accumulation. Water Science & Technology, 66(7): 1491-1497.

90. X.M. Wang,F.Y. Sun, X. Y. Li.2011. Investigation of the role of biopolymer clusters in membrane fouling by the application of scanning electron microscopy. Chemosphere. 85 (7), 1154–1159.

91. W.Chen, F.Y. Sun, X. Y. Li , X. M.Wang.2009. A membrane bioreactor (MBR) for an innovative biological nitrogen removal process. Water Science & Technology. 61(3), 671–676.

92. X.B. Zhang ,W.Y. Dong , F.Y. Sun, W.Yang , J. Dong.2014.Degradation efficiency and mechanism of azo dye RR2 by a novel ozone aerated internal microelectrolysis filter. Journal of Hazardous Materials. 276: 77-87.

93. T. T. Ren, F. Xiao , W. J. Sun , F.Y. Sun,K. M. Lam , X. Y. Li.2014. Investigation of the shape change of bio-flocs and its influence on mass transport using particle image velocimetry. Water Science & Technology.69(8): 1648-5.

94. X.M. Lv , M.F. Shao , J. Li, C.L. Li , X.L. Gao , F.Y. Sun.2008.A comparative study of bacterial community in denitrifying and traditional enhanced biological phosphorous removal processes. Microbes and Environments, 29(3): 261-268.

95. Z.J. Dong , W.Y.Dong , F.Y. Sun,R.S. Zhu, Ouyang F. 2012. Effects of preparation conditions on catalytic activity of Ru/AC catalyst to reduce bromate in water Reaction Kinetics, Mechanisms and Catalysis. 107 (1): 231-244.

96. W.Y.Dong , X.B.Zhang , H.J.Wang , F.Y. Sun,T.Z. Liu.2012. Enhanced Denitrification with External Carbon Sources in a Biological Anoxic Filter. Water Science & Technology. 66(10):2243-50.

97. Q.Han , W.Y.Dong , H.J.Wang , T.Z.Liu , F.Y. Sun,Y.L. Yin , X.L.Yan .2013.Effects of coexisting anions on decolorization of azo dye X-3B by ferrate(VI) and a comparative study between ferrate(VI) and potassium permanganate. Separation and Purification Technology, 108, 74–82.

98. J.Y.Li, Y.Chen, J.Li, D.H. Zhang, S.G. Wang, F.Y. Sun, L.J. Wang, D.Jiang, Q.Zhang.2006. Morphological and structural characteristics of aerobic granulation. Journal of Chemical Technology and Biotechnology. 81: 823–830.

99. 孫飛雲,楊成永,李久義.SBR中不同基質對好氧顆粒污泥的性狀影響研究[J].北京交通大學學報,2007(01):106-110-114.

2019年，廣東省市政行業協會《2019年度廣東省市政行業協會科學技術獎》一等獎，排名第2；

2019年，生態環境部2019年度《環境保護科學技術獎》二等獎，排名第4；

2018年，第四屆全國膜技術研究與套用青年科學家論壇“優秀報告”；

2015年，深圳市高層次人才（地方級）；

2015年，SCI期刊《Process Biochemistry》：Outstanding Reviewer;

2014年，華夏建設科學技術獎三等獎，排名第4；

2013年，升級為深圳市海外高層次人才“孔雀計畫”B類人才；

2011年，入選深圳市首批海外高層次人才“孔雀計畫”C類人才。