宋新山
發布時間:2020-09-21
宋新山教授博導
導師職務🌆:院長
導師資質:註冊環評工程師
聯系方式:021-67792523
電子郵箱:newmountain@dhu.edu.cn
辦公地址♦︎👩🏽🎤:松江區人民北路2999號,沐鸣2娱乐,松江校區四號沐鸣2樓3157室
從事水生態修復與汙染控製、土壤汙染修復與改良、環境影響評價、環境規劃與管理方向的科研教學工作🚎,具有較為豐富的生態修復工程實踐經驗。發表論文160余篇🫱🏿,其中和水生態修復有關的期刊論文80余篇,在本領域知名國際期刊上發表人工濕地水生態修復相關的科技論文40余篇🤾🏻♂️,出版專著教材6部👮🏿♂️。對黑臭水體生態治理及水生態修復技術🖨、Fe-Mn-C-N耦合的水生態系統脫氮、人工濕地水動力學過程、微生物燃料電池型人工濕地🚶➡️、重金屬汙染土壤修復‼️、環境評價與規劃🧩、環境數學模擬技術等方面具有較為深厚的研究基礎。主持和參加國家973課題🫛、國家重點研發計劃、國家自科基金🏇🏽、上海市自科基金等縱向項目以及企業委托技術研發項目等。申請專利15項,專利授權10余項。
社會兼職:中國環境科學科學學會水處理及回用專委會委員;“長三角助力創新聯盟”專家委員會委員。
1992-1996,武漢大學🚣🏼🧑🏼🦳,環境學科,學士
1997-2001,中國科沐鸣2⏯,環境科學,博士
2001-目前🆙,沐鸣2
1、環境化學🤬;
2、環境數學模擬及MATLAB應用
水生態修復;土壤汙染修復與改良;環境汙染模擬🫸🏿。
1.國家自然科學基金面上,固相碳源-納米鐵協同強化水平潛流人工濕地修復低C/N地表水機製(51679041)。
2.國家重點研發計劃,太原市高效節水和非常規水資源利用關鍵技術與示範-海綿體材料結構與功能調控關鍵技術(2019YFC0408604)🧑🏻⚖️。
3.上海市自然科學基金,印染廢水處理高效功能性優勢菌群的篩選及其結構與功能相互作用研究(12ZR1440400)。
4.國家自然科學基金面上👩👧👧,潛流人工濕地水動力學過程模擬及其去汙實證(51079028)。
5.上海自然科學基金面上,水平潛流人工濕地新型運行工藝脫氮的機理及其模擬10ZR1400300。
6.國家自然科學基金面上項目,氧化亞鐵硫桿菌與硫化礦相互作用研究(50874032)。
7.上海市教育委員會上海市優秀青年教師基金♢😓,組合式人工濕地汙水脫氮的優化工藝研究(113070056017)。
8.科技部973計劃課題“氣候變化對旱澇災害影響與風險評估”之氣候變化背景下黃淮海地區幹旱預測預警及評估的技術方法研究(2010CB951102)。
9.上海市市科委-電鍍行業場地重金屬遷移轉化機製及其風險評估技術研究(2016.06-2017.6)
10.應用於水環境生態修復的土著生物床技術裝備研究(2019.4-2020.4)
1. Wang, Junfeng, Song, Xinshan, Wang, Yuhui, Bai, Junhong, Li, Manjie, Dong, Guoqiang, Lin, Fanda, Lv, Yanfeng, Yan, Denghua. Bioenergy generation and rhizodegradation as affected by microbial community distribution in a coupled constructed wetland-microbial fuel cell system associated with three macrophytes. SCIENCE OF THE TOTAL ENVIRONMENT, 2017.12.31, 607: 53-62 .
2. Junfeng Wang, Xinshan Song, Qusheng Li, Heng Bai, Congyun Zhu, Baisha Weng, Denhua Yan,Junhong Bai. Bioenergy generation and degradation pathway of phenanthrene and anthracene in a constructed wetland-microbial fuel cell with an anode amended with nZVI. Water Research, 2019 (150) :340-348.
3. Zhao, Zhimiao, Song, Xinshan, Zhang, Yinjiang, Zhao, Yufeng, Wang, Bodi, Wang, Yuhui.Effects of iron and calcium carbonate on contaminant removal efficiencies and microbial communities in integrated wastewater treatment systems.CHEMOSPHERE, 2017,189: 10-20 ; SCIE
4. Xinshan Song,Yuhui Wang,Suyan Wang. Addition of Fe2+ increase nitrate removal in vertical subsurface flow constructed wetlands. Ecological Engineering,2016, Ecological Engineering, 2016, 91:487 –494.
5. Xinshan Song, Yi Ding, Yu-hui Wang, Wei Wang, Gang Wang, Bin Zhou. Comparative study of nitrogen removal and bio-film clogging for three filter media packing strategies in vertical flow constructed wetlands. Ecological Engineering,2015,74: 1-7.
6. Xinshan Song, Denghua Yan, Zhenhong Liu, Yan Chen, Shoubo Lu, Daoyuan Wang. Performance of laboratory-scale constructed wetlands coupled with micro-electric field for heavy metal-contaminating wastewater treatment. Ecological Engineering, 2011,37:2061-2065.
7. Wang, Wei; Song, Xinshan; Li, Fayun; Ji, Xiyan; Hou, Meifang. Intensified nitrogen removal in constructed wetlands by novel spray aeration system and different influent COD/N ratios. Bioresource technology, 2020.2.10, DOI:10.1016/j.biortech.2020.123008.
8. Si, Zhihao; Song, Xinshan; Wang, Yuhui; Cao, Xin; Wang, Yifei; Zhao, Yufeng; Ge, Xiaoyan; Sand, Wolfgang. Untangling the nitrate removal pathways for a constructed wetland- sponge iron coupled system and the impacts of sponge iron on a wetland ecosystem. Journal of hazardous materials, 2020.2.25, DOI:10.1016/j.jhazmat.2020.122407;
9. Zhao, YF (Zhao, Yufeng) ; Zhao, ZM (Zhao, Zhimiao); Song, XS (Song, Xinshan) ; Jiang, XY (Jiang, Xingyi) ; Wang, YH (Wang, Yuhui) ; Cao, X (Cao, Xin) ; Si, ZH (Si, Zhihao) ; Pan, FF (Pan, Fanfeng). Effects of nZVI dosing on the improvement in the contaminant removal performance of constructed wetlands under the dye stress. SCIENCE OF THE TOTAL ENVIRONMENT, 2020.2.10, DOI: 10.1016/j.scitotenv.2019.134789
10. Ge, XY (Ge, Xiaoyan) ; Cao, X (Cao, Xin) ; Song, XS (Song, Xinshan) ; Wang, YH (Wang, Yuhui); Si, ZH (Si, Zhihao) ; Zhao, YF (Zhao, Yufeng) ; Wang, WT (Wang, Wenting) ; Tesfahunegn, AA (Tesfahunegn, Awet Arefe). Bioenergy generation and simultaneous nitrate and phosphorus removal in a pyrite-based constructed wetland-microbial fuel cell. BIORESOURCE TECHNOLOGY, 2020.01, DOI: 10.1016/j.biortech.2019.122350
11. Zhao, YF (Zhao, Yufeng) ; Song, XS (Song, Xinshan); Cao, X (Cao, Xin); Wang, YH (Wang, Yuhui); Zhao, ZM (Zhao, Zhimiao); Si, ZH (Si, Zhihao); Yuan, SH (Yuan, Shihong). Modified solid carbon sources with nitrate adsorption capability combined with nZVI improve the denitrification performance of constructed wetlands. BIORESOURCE TECHNOLOGY, 2019.12, DOI: 10.1016/j.biortech.2019.122189
12. Si, ZH (Si, Zhihao); Wang, YH (Wang, Yuhui); Song, XS (Song, Xinshan); Cao, X (Cao, Xin); Zhang, X (Zhang, Xian); Sand, W (Sand, Wolfgang). Mechanism and performance of trace metal removal by continuous-flow constructed wetlands coupled with a micro-electric field. WATER RESEARCH, 2019.11.01, DOI: 10.1016/j.watres.2019.114937
13. Si, ZH (Si, Zhihao); Song, XS (Song, Xinshan); Wang, YH (Wang, Yuhui); Cao, X (Cao, Xin); Zhao, YF (Zhao, Yufeng); Wang, BD (Wang, Bodi); Chen, Y (Chen, Yan); Arefe, A (Arefe, Awet). Intensified heterotrophic denitrification in constructed wetlands using four solid carbon sources: Denitrification efficiency and bacterial community structure. BIORESOURCE TECHNOLOGY. 2018(267): 416-425.
14. Zhao, YF (Zhao, Yufeng); Cao, X (Cao, Xin) ; Song, XS (Song, Xinshan); Zhao, ZM (Zhao, Zhimiao) ; Wang, YH (Wang, Yuhui) ; Si, ZH (Si, Zhihao) ; Lin, F (Lin, Fanda) ; Chen, Y (Chen, Yan)Zhang, YJ(Zhang, Yinjiang). Montmorillonite supported nanoscale zero-valent iron immobilized in sodium alginate (SA/Mt-NZVI) enhanced the nitrogen removal in vertical flow constructed wetlands (VFCWs). BIORESOURCE TECHNOLOGY. 2018(267):608-617.
15. 宋新山, 鄧偉. 環境數學模型,北京💮:科學出版社,2004.
16. 宋新山, 鄧偉, 張琳. MATLAB在環境科學中的應用,化學工業出版社,2008
17. 黃建平, 宋新山. 環境影響評價,化學工業出版社,2013.
18. 嚴登華,秦天玲,王浩,翁白沙,宋新山.基於低碳發展模式的水資源合理配置,科學出版社,2014.
19. 王宇暉,雷曉輝,廖衛紅,宋新山⚫️,王浩,流域水量水質聯合模擬技術與應用🎹,中國水利水電出版社,2015.
20. Wang Junfeng, Song Xinshan, Liu Zhaowei,Wang Yuhui. Micro-electric Field of MFC Constructed Wetlands for Water Purification. 中國水利水電出版社,2018.
1. 宋新山,王俊峰😺,王宇暉🐍,王蘇艷🌅🍭,嚴登明👳♂️,何媛🎦,王瑋,丁怡. 一種高效處理有機汙水的微生物燃料電池人工濕地🫰🏼,2015.2.25,中國,ZL201410001954.4
2. 丁怡,宋新山🧗♀️,王瑋,王宇暉🦛,王俊峰,嚴登明,王蘇艷🧗🏿♂️,何媛. 一種間歇式運行的垂直流人工濕地增氧脫氮系統,2015.5.13,中國,ZL201410002615.8
3. 王俊峰,宋新山#️⃣,王宇暉,翟鵬超🫄,嚴登明,王蘇艷,何媛,王瑋,丁怡.一種可輔助曝氣及以反沖洗措施解決堵塞的人工濕地🧎♀️,2015.1.7,中國👩🏽,ZL201420293699.0
4. 宋新山,嚴登明🚵♀️🥦,王俊峰,王宇暉,嚴登華,秦天玲👠,翟鵬超,趙誌淼🍄🟫,王瑋,丁怡. 一種用中空纖維膜模擬植物根系進行微曝氣的人工濕地,2014.12.10,中國,ZL201420363732.2
5. 丁怡,宋新山😤,王瑋,王宇暉👃🏼,陳燕. 一種藻菌共生表面流人工濕地復合凈水系統,2014.4.2🪛,中國🌝,ZL201320449052.8
6. 丁怡🧘🏿♂️,宋新山⛹🏽♀️,王瑋🏣,王宇暉. 一種提高人工濕地脫氮效率的碳源提取液製備方法🪱,2013.8.28, 中國,ZL201310222447.9
7. 王宇暉,宋新山,牛瑞華.低C/N生活汙水高效脫氮的復合電極水平潛流人工濕地裝置,2013.7.24👩🏽,中國ZL201310122176.X
8. 牛瑞華👗,王宇暉🤾🏿,宋新山. 一種人工濕地水動力研究試驗裝置,2013.4.23🧑🦲,中國🍖,ZL201320206442.2
榮譽及獲獎
2006年,“上海市優秀青年教師”(上海市教委)🖖🏼;
2007年🧑🏻🏫,“上海市育才獎”(上海市教委);
2011年,“寶鋼優秀教師”(上海市教委)🔫;
2013年,上海市級教學成果獎(二等獎)(上海市教委)☄️;
2014年,中國水利水電科沐鸣2年度科學技術獎一等獎🏊🏻♀️;
2015年,大禹水利科學技術獎特等獎🧑🏽🍳;
2019年,上海市科技進步獎二等獎。
