宋新山
发布时间:2020-09-21
宋新山教授博导
导师职务:院长
导师资质:注册环评工程师
联系方式:021-67792523
电子邮箱:newmountain@dhu.edu.cn
办公地址:松江区人民北路2999号,至尊全讯555050,松江校区四号学院楼3157室
从事水生态修复与污染控制、土壤污染修复与改良、环境影响评价、环境规划与管理方向的科研教学工作,具有较为丰富的生态修复工程实践经验。发表论文160余篇,其中和水生态修复有关的期刊论文80余篇,在本领域知名国际期刊上发表人工湿地水生态修复相关的科技论文40余篇,出版专著教材6部。对黑臭水体生态治理及水生态修复技术、Fe-Mn-C-N耦合的水生态系统脱氮、人工湿地水动力学过程、微生物燃料电池型人工湿地、重金属污染土壤修复、环境评价与规划、环境数学模拟技术等方面具有较为深厚的研究基础。主持和参加国家973课题、国家重点研发计划、国家自科基金、上海市自科基金等纵向项目以及企业委托技术研发项目等。申请专利15项,专利授权10余项。
社会兼职:中国环境科学科学学会水处理及回用专委会委员;“长三角助力创新联盟”专家委员会委员。
1992-1996,武汉大学,环境学科,学士
1997-2001,中国科学院,环境科学,博士
2001-目前,至尊全讯555050至尊全讯555050
1、环境化学;
2、环境数学模拟及MATLAB应用
水生态修复;土壤污染修复与改良;环境污染模拟。
1.国家自然科学基金面上,固相碳源-纳米铁协同强化水平潜流人工湿地修复低C/N地表水机制(51679041)。
2.国家重点研发计划,太原市高效节水和非常规水资源利用关键技术与示范-海绵体材料结构与功能调控关键技术(2019YFC0408604)。
3.上海市自然科学基金,印染废水处理高效功能性优势菌群的筛选及其结构与功能相互作用研究(12ZR1440400)。
4.国家自然科学基金面上,潜流人工湿地水动力学过程模拟及其去污实证(51079028)。
5.上海自然科学基金面上,水平潜流人工湿地新型运行工艺脱氮的机理及其模拟10ZR1400300。
6.国家自然科学基金面上项目,氧化亚铁硫杆菌与硫化矿相互作用研究(50874032)。
7.上海市教育委员会上海市优秀青年教师基金,组合式人工湿地污水脱氮的优化工艺研究(113070056017)。
8.科技部973计划课题“气候变化对旱涝灾害影响与风险评估”之气候变化背景下黄淮海地区干旱预测预警及评估的技术方法研究(2010CB951102)。
9.上海市市科委-电镀行业场地重金属迁移转化机制及其风险评估技术研究(2016.06-2017.6)
10.应用于水环境生态修复的土著生物床技术装备研究(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, 邓伟. 环境数学模型,北京:科学出版社,2004.
16. 宋新山, 邓伟, 张琳. MATLAB在环境科学中的应用,化学工业出版社,2008
17. 黄建平, 宋新山. 环境影响评价,化学工业出版社,2013.
18. 严登华,秦天玲,王浩,翁白沙,宋新山.基于低碳发展模式的水资源合理配置,科学出版社,2014.
19. 王宇晖,雷晓辉,廖卫红,宋新山,王浩,流域水量水质联合模拟技术与应用,中国水利水电出版社,2015.
20. Wang Junfeng, Song Xinshan, Liu Zhaowei,Wang Yuhui. Micro-electric Field of MFC Constructed Wetlands for Water Purification. 中国水利水电出版社,2018.
1. 宋新山,王俊峰,王宇晖,王苏艳,严登明,何媛,王玮,丁怡. 一种高效处理有机污水的微生物燃料电池人工湿地,2015.2.25,中国,ZL201410001954.4
2. 丁怡,宋新山,王玮,王宇晖,王俊峰,严登明,王苏艳,何媛. 一种间歇式运行的垂直流人工湿地增氧脱氮系统,2015.5.13,中国,ZL201410002615.8
3. 王俊峰,宋新山,王宇晖,翟鹏超,严登明,王苏艳,何媛,王玮,丁怡.一种可辅助曝气及以反冲洗措施解决堵塞的人工湿地,2015.1.7,中国,ZL201420293699.0
4. 宋新山,严登明,王俊峰,王宇晖,严登华,秦天玲,翟鹏超,赵志淼,王玮,丁怡. 一种用中空纤维膜模拟植物根系进行微曝气的人工湿地,2014.12.10,中国,ZL201420363732.2
5. 丁怡,宋新山,王玮,王宇晖,陈燕. 一种藻菌共生表面流人工湿地复合净水系统,2014.4.2,中国,ZL201320449052.8
6. 丁怡,宋新山,王玮,王宇晖. 一种提高人工湿地脱氮效率的碳源提取液制备方法,2013.8.28, 中国,ZL201310222447.9
7. 王宇晖,宋新山,牛瑞华.低C/N生活污水高效脱氮的复合电极水平潜流人工湿地装置,2013.7.24,中国ZL201310122176.X
8. 牛瑞华,王宇晖,宋新山. 一种人工湿地水动力研究试验装置,2013.4.23,中国,ZL201320206442.2
荣誉及获奖
2006年,“上海市优秀青年教师”(上海市教委);
2007年,“上海市育才奖”(上海市教委);
2011年,“宝钢优秀教师”(上海市教委);
2013年,上海市级教学成果奖(二等奖)(上海市教委);
2014年,中国水利水电科学院年度科学技术奖一等奖;
2015年,大禹水利科学技术奖特等奖;
2019年,上海市科技进步奖二等奖。