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教師簡介

姓名:宋躍飛

職務(wù):

職稱:教授

電子郵箱:[email protected]


個人簡歷

宋躍飛,博士,、教授,。主要從事納濾膜法水污染控制相關(guān)研究。主持完成國家及省部級以上項目6項,。以第一/通訊作者在Water Res., J. Membr. Sci., J. Clean. Prod.等域內(nèi)期刊發(fā)表高水平學術(shù)論文50余篇,,其中一區(qū)SCI 16篇,H指數(shù)21,他引1000余次,,授權(quán)國家發(fā)明/實用新型專利9,。


教育/工作經(jīng)歷

受教育經(jīng)歷(按時間倒序排序)

2010.09-2013.07   中國海洋大學博士導(dǎo)師:高從堦院士

2007.09-2010.07   中國海洋大學碩士導(dǎo)師:高從堦院士

2003.09-2007.07   河南師范大學  學士  導(dǎo)師:李全民教授

工作經(jīng)歷(按時間倒序排序)

2024.03-至今      河南師范大學環(huán)境學院,,教授

2017.05-2024.02    河南師范大學,,環(huán)境學院副教授

2013.09-2017.04    河南師范大學,,環(huán)境學院,,講師


研究領(lǐng)域

納濾膜的功能化修飾與催化復(fù)合及其對新污染物高效去除、市政/工業(yè)類再生水梯級與安全回用,。


主要學術(shù)及社會兼職

[1] 中國膜工業(yè)協(xié)會運維分會專委員會委員,;

[2] Membranes, Front. Membr. Sci. Technol., Separations期刊客座編輯;

[3] J. Clean. Prod., Sci. Total Environ., J. Hazard. Mater., J. Environ. Manage., Environ. Sci.: Nano10余個SCI源期刊的審稿人,。


科研項目情況

  1. 河南省科技開發(fā)聯(lián)合基金重點項目(235200810043):有機廢棄反滲透膜組件原位修復(fù)與循環(huán)利用關(guān)鍵技術(shù)研究,,2024/01-2025/12,(第二參與)

  2. 河南省自然科學基金面上項目(22230420475):基于光催化納濾膜的復(fù)合微污染水質(zhì)凈化與毒性控制機理,,2022/01-2023/12,,主持

  3. 國家自然科學基金項目(21606074):荷電性能對納濾膜鹽水軟化中膜面結(jié)垢過程的影響機制,2017/01-2019/12,,主持

  4. 河南省科技攻關(guān)項目(19210221045):兼具可控荷電性和抑垢性能的混合基質(zhì)納濾膜構(gòu)建及其微結(jié)構(gòu)調(diào)控:2019/01-2020/12,,主持

  5. 中國博士后基金特別資助項目(2017T100533):荷電性殼聚糖磷酸酯納濾膜的抑垢性能調(diào)控制備,2017/06-2018/12,,主持

  6. 中國博士后基金面上資助項目(2016M592297):荷電性能對納濾膜軟化中膜面污染趨勢預(yù)測的影響機制,,2016/05-2018/12,主持

  7. 國家水體污染控制與治理科技重大專項子課題項目(2015ZX07204-002):發(fā)制品行業(yè)生產(chǎn)環(huán)節(jié)節(jié)水減排關(guān)鍵技術(shù)研究,,2015/01-2018/12,,(第參與)

  8. 河南省科技攻關(guān)項目(152102310315):基于黃淮地區(qū)高回收率苦咸水淡化的膜污染趨勢預(yù)測,、機理及PCS復(fù)合納濾膜制備研究,,2015/01-2017/12,主持


代表性論文

  1. Song Y.(宋躍飛)*, Meng C., Lyu Y., Liu Y., Li Y., Jiang Z., Jiang K., Hu C.**, Self-cleaning foulant attachment on near-infrared responsive photocatalytic membrane for continuous dynamic removing antibiotics in sewage effluent environment, Water Res., 2024, 248: 120867.

  2. Li T., Song Y.(宋躍飛)*, Ma S., Bai X., Zhang L., Tan A., Jiang K.**, Cause analysis for fouling mitigation, techno-economic and toxicity reduction assessments of hairwork dyeing effluent reclamation via membrane-based hybrid systems, J. Clean. Prod., 2023, 403: 136892.

  3. Li C.*, Song K., Hao C., Liang W., Li X., Zhang W., Wang Y., Song Y.(宋躍飛), Fabrication of S-PBI cation exchange membrane with excellent anti-fouling property for enhanced performance in electrodialysis, Colloid. Surface A, 2023, 661: 130910.

  4. Song Y.(宋躍飛)*, Wang Y., Hou M., Du C., Chen K., Zhang Y., Jiang K.**, Effect of surface grafting with quaternized carbon quantum dots on nanofiltration membrane removing contaminants from micro-polluted river water, J. Environ. Chem. Eng., 2023, 11(1): 109244.

  5. Song Y.(宋躍飛)*, Meng C., Chen X., Li Y., Ma S., Li T., Jiang K.**, Synchronous removal of antibiotics in sewage effluent by surface-anchored photocatalytic nanofiltration membrane in a continuous dynamic process, Environ. Sci.: Nano, 2023, 10: 567-580.

  6. Song Y.(宋躍飛)*, Li Y., Chen X., Meng C., Ma S., Li T., Jiang K., Hu C.**, Simultaneous degradation and separation of antibiotics in sewage effluent by photocatalytic nanofiltration membrane in a continuous dynamic process, Water Res., 2023, 229: 119460.

  7. Song Y.(宋躍飛)*, Chen X., Li Y., Meng C., Ma S., Li T., Hu C.**, Synchronous removal of small-sized antibiotics by bifunctional photocatalytic nanofiltration membrane in a continuous flow-through process under multiple influent matrices, ACS ES&T Water, 2022, 2(12): 2567-2578. (Supplementary Cover封面文章)

  8. Song Y.(宋躍飛)*, Li X., Wang Y., Ma S., Li T., Chen X., Li Y., Jiang K.**, Adsorption and fouling behaviors of customized nanocomposite membrane to trace pharmaceutically active compounds under multiple influent matrices, Water Res., 2021, 206: 117762.

  9. Song Y.(宋躍飛)*, Bai X., Zhang N., Lu Z., Zhu M., Wang Y., Kai J.**, Custom-tailoring tight nanocomposite membranes for advanced reclamation of hairwork dyeing effluent, J. Membr. Sci., 2021, 636: 119580.

  10. Song Y.(宋躍飛)*, Wang Y., Zhang N., Li X., Bai X., Li T.**, Quaternized carbon-based nanoparticles embedded positively charged composite membranes towards efficient removal of cationic small-sized contaminants, J. Membr. Sci., 2021, 630: 119332.

  11. Song Y.(宋躍飛)*, Sun Y., Zhang N., Li C., Li T.**, Custom-tailoring loose nanocomposite membrane incorporated bipiperidine/graphene quantum dots for high-efficient dye/salt fractionation in hairwork dyeing effluent, Sep. Purif. Technol., 2021, 271: 118870.

  12. Song Y.(宋躍飛)*, Li X., Sun Y., Wang Y., Bai X., Zhang X., Zhang N., Jiang K.**, Nanofiltration fouling behaviors with different membrane materials induced by residual natural organics left over after ultrafiltration unit encountered with divalent cations, Chem. Eng. J., 2021, 413: 127398.

  13. Song Y.(宋躍飛)*, Li X., Li C., Li J., Dong Z., Zhang M., Qi P., Bai X., Jiang K.**, Exploring and comparing the roles of Ca2+ and Mg2+ in small-sized natural organics-induced charged nanofiltration membrane fouling, Sep. Purif. Technol., 2020, 251: 117415.

  14. Song Y.(宋躍飛)*, Hu Q., Li T., Li J., Jiang K.**, Gao C., Advanced reclamation of hairwork dyeing effluent using tree-shaped cellulose flocculants and subsequent optimization of dual-membrane performance and fouling behavior, J. Clean. Prod., 2020, 268: 122348.

  15. Song Y.(宋躍飛)*, Sun Y., Chen M., Huang P., Li T., Zhang X., Jiang K.**, Efficient removal and fouling-resistant of anionic dyes by nanofiltration membrane with phosphorylated chitosan modified graphene oxide nanosheets incorporated selective layer, J. Water Proc. Eng., 2020, 34: 101086.

  16. Li C.*, Song Y.(宋躍飛), Wang X., Zhang Q., Synthesis, characterization and application of S-TiO2/PVDF-g-PSSA composite membrane for improved performance in MFCs, Fuel, 2020, 264: 116847.

  17. Song Y.(宋躍飛)*, Hu Q., Sun Y., Li X., Wan H., Zang L., Jiang K.**, Gao C., The feasibility of UF-RO integrated membrane system combined with coagulation/flocculation for hairwork dyeing effluent reclamation, Sci. Total Environ., 2019, 691: 45-54.

  18. Song Y.(宋躍飛)*, Hu Q., Li T., Sun Y., Chen X., Fan J., Fabrication and characterization of phosphorylated chitosan nanofiltration membranes with tunable surface charges and improved selectivities, Chem. Eng. J., 2018, 352: 163-172.

  19. Song Y.(宋躍飛)*, Qin W., Zhang S.,Hu Q., Ren R., Xue S., Surface electrokinetic phenomenon of DK nanofiltration membrane under threshold concentration condition, CIESC Journal, 2018, 69(7): 3286-3292.

  20. Song Y.(宋躍飛)*, Qin W., Li T., Hu Q., Gao C., The role of nanofiltration membrane surface charge on the scale-prone ions concentration polarization for low or medium saline water softening, Desalination, 2018, 432: 81-88.

  21. Su X., Song Y.(宋躍飛)*, Li T., Gao C., Effect of feed water characteristics on nanofiltration separating performance for brackish water treatment in the Huanghuai region of China, J. Water. Proc. Eng., 2017, 19: 147-155.

  22. Song Y.(宋躍飛)*, Zhao G., Li T., Qin W., Influence of feedwater quality on nanofiltration membrane softening efficiencies for brackish water in long-term operation, CIESC Journal, 2017, 68(8): 3133-3140.

  23. Song Y.(宋躍飛)*, Li T., Zhou J., Li Z., Gao C., Analysis of nanofiltration membrane performance during softening process of simulated brackish groundwater, Desalination, 2016, 339:159-164.

  24. Song Y.(宋躍飛)*, Li T., Zhou J., Pan F., Su B., Gao C., Comprehensive pilot-scale investigation of seawater nanofiltration softening by increasing permeate recovery with recirculation, Desali. Water Treat., 2016, 57(37):17271-17282.

  25. Song Y.(宋躍飛)*, Li T., Zhou J.**, Gao X., Gao C., Improvement of overall water recovery by increasing RNF with recirculation in a NF-RO integrated membrane process for seawater desalination, Desalination, 2015, 361: 95-104.

  26. Song Y.(宋躍飛), Gao X.*, Gao C., Evaluation of scaling potential in a pilot-scale fully integrated NF-RO membrane seawater desalination system, J. Membrane. Sci., 2013, 443: 201-209.

  27. Song Y.(宋躍飛), Su B.*, Gao X., Gao C., Investigation on high NF permeate recovery and scaling potential in NF-SWRO integrated membrane operation, Desalination, 2013, 330: 61-69.

  28. Song Y.(宋躍飛), Su B.*, Gao X., Gao C., The performance of polyamide nanofiltration membrane for long-term operation in an integrated membrane seawater pretreatment system, Desalination, 2012, 296: 30-36.

  29. Song Y.(宋躍飛), Xu J., Xu Y., Gao X., Gao C.*, Performance of UF-NF integrated membrane process for seawater softening, Desalination, 2011, 276: 109-116.


 授權(quán)專利

[1]李鐵梅,,宋躍飛,,秦文博,戶啟華,,張小轉(zhuǎn),,樊靜,一種提高膜過濾系統(tǒng)性能的污水處理裝置,,專利號:ZL201711167127.2/ ZL201721564875.X

[2]李鐵梅,,宋躍飛,趙果,秦文博,,戶啟華,,張小轉(zhuǎn),樊靜,,一種膜過濾中添加CO2提高產(chǎn)水回收率的裝置,,專利號:ZL201721555082.1

[3]宋躍飛,李鐵梅,,趙果,,秦文博,戶啟華,,張小轉(zhuǎn),,樊靜,一種集成膜法雜化去除低濃度含硒廢水的裝置,,專利號:ZL201721553543.1

[4]宋躍飛,,趙果,李鐵梅,,鮑林林,,楊潔,張素華,,周建國,,一種毛發(fā)生產(chǎn)染色工序廢水處理裝置,專利號:ZL201620509732.8

[5]李鐵梅,,宋躍飛,,周建國,李志勇,,潘峰,,樊靜,趙果,,一種毛發(fā)生產(chǎn)浸酸工序廢水處理裝置,,專利號:ZL201620509733.2

[6]宋躍飛,周建國,,李鐵梅,,羅會玖,程軻,,一種苦咸水淡化過程中抑制膜元件結(jié)垢的方法,,2014.9,專利號:ZL201410466463.7

[7]宋躍飛,,周建國,,李鐵梅,一種苦咸水淡化方法及其裝置,專利號:ZL201410181808.4

[8]高學理,,宋躍飛,,蘇保衛(wèi),高從堦,,一種海水淡化的方法,,專利號:ZL201210377906.6


 獲獎情況

[1] 2021年指導(dǎo)本科生獲河南省大學生創(chuàng)新創(chuàng)業(yè)訓練計劃項目優(yōu)秀成果獎。

[2] 2024年指導(dǎo)碩士生獲河南省優(yōu)秀畢業(yè)生稱號,。



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