范功端,男,教授,博士生导师,福建省“雏鹰计划”青年拔尖人才,福建省杰青,旗山学者,福州大学研究生院院长助理兼金沙集团186cc成色市政工程系主任,福州大学市政与水环境工程研究中心主任。主要从事饮用水安全保障技术、水污染控制与治理、海绵城市建设和水体生态修复、水处理纳米材料与技术等研究,在国内外重要刊物发表学术论文150多篇,其中SCI收录100余篇,获得专利授权40余项,以第一完成人获中国发明协会创业创新奖一等奖和福建省科技进步二等奖各1项。
http://orcid.org/0000-0001-7687-1046
https://www.researchgate.net/profile/Gongduan-Fan
社会兼职
1. 中国城镇供排水协会工程教育专业委员会委员、中国城镇供排水协会科学技术委员会委员、中国城镇供排水协会青年工作者委员会委员、中国土木工程学会市政分会理事、中国城市科学研究会城市雨洪管理与海绵城市专委会委员、中国环境科学学会生态环境科普专家库成员、福建省幸福河湖促进会专家委员会委员、福建省土木工程建筑行业协会理事、福建省城市科学研究会理事、福建省环境教育学会理事
2. 国际水协(IWA)会员、美国供水协会(AWWA)会员、ACS会员、中国化学会会员、中国环境科学学会会员
3. 教育部学位与研究生教育发展中心通讯评议专家、国家自然科学基金委通讯评议专家
4. 《中国给水排水》期刊青年编委、water编委、catalysts客座主编
5. Applied Catalysis B: Environmental、Water Research、Environmental Science & Technology、Nano Energy、Scientific Report、Chemical Engineering Journal、 Journal of Hazardous Material、Journal of Cleaner Production、Science of the Total Environment、Chemosphere、Journal of Environmental Quality、Ecological Engineering、湖泊科学、中国给水排水、水资源保护、高等建筑教育等60余本国内外期刊审稿人。
硕博士招生专业
学术型博士:市政工程
工程类专业学位博士:电子信息
学术型硕士:市政工程
专业型硕士:土木工程(市政方向)、水利工程(市政方向)
联系方式
通讯地址:福建省福州市大学城学园路2号金沙集团186cc成色市政工程系 350116
邮箱:fgdfz@fzu.edu.cn
主要教育和工作经历
2003/07 – 2007/06,重庆大学,给水排水工程,获学士学位;
2007/07 – 2012/06,重庆大学,市政工程系,获博士学位;
2012/08 – 2015/06,福州大学,金沙集团186cc成色市政工程系,讲师;
2014/4 – 2019/4,福州大学,化学学院,物理化学博士后;
2016/12- 2018/1, 美国亚利桑那大学,国家公派访问学者;
2015/6 – 2020/9,福州大学,金沙集团186cc成色市政工程系,副教授;
2018/12 – 至今,福州大学,金沙集团186cc成色,学术型博士生导师;
2020/9– 至今,福州大学,金沙集团186cc成色市政工程系,教授(破格)。
2022/03 – 至今,福州大学,专业学位博士生导师
2018/01 – 至今,福州大学,金沙集团186cc成色市政工程系主任
2018/06 – 2021/08, 中共金沙集团186cc成色建筑、工管与市政工程系支部书记
2021/10 – 至今,福州大学,研究生院院长助理
主要科研项目
1. 福建省“雏鹰计划”青年拔尖人才项目(资助200万元),主持。
2. 福建省自然科学基金重点项目:新型二维复合材料可控合成及其声光协同催化降解内分泌干扰物的机理研究(2023J02006),2023-2026年,项目负责人;
3. 国家自然科学基金面上项目:新型金属-有机框架纳米材料涂层调控及其除藻机理研究(51778146),2018-2021年,项目负责人;
4. 福建省自然科学基金杰青项目:基于藻细胞特性的漂浮型金属-有机框架纳米材料涂层调控及除藻机理(2018J06013),2018-2021年,项目负责人;
5. 国家自然科学基金青年项目:基于藻细胞生理特征分析的超声预防性抑藻机理及调控研究(51308123),2014 - 2016年,项目负责人;
6. 福建省自然科学基金引导性项目:畜禽废弃物无害化处理及资源化利用关键技术研究 (2021N0022),2022 – 2024年,合作单位项目负责人;
7. 国家环境光催化工程技术研究中心开放课题:新型核-壳结构可见光催化剂调控及原位去除有害藻类及藻毒素机理研究(NERCEP-201901),2019-2021年,项目负责人;
8. 中国博士后科学基金项目:纳米结构钛酸盐去除水中重金属离子的研究(2014M561856),2014-2016年,项目负责人;
9. 福建省住房和城乡建设系统科学技术项目:应用于海绵城市的新型雨水花园的关键技术研究(2016-K-42)2016-2017年,技术负责人;
10. 福建省住房和城乡建设系统科学技术项目:超滤为核心的一体化净水装置的研发与应用(2014-K-05)2014-2016年(已结题),技术负责人;
11. 国家“十一五”科技支撑计划重点课题:取水——水处理关键技术与成套化设备研究(2007BAB21B01),2008- 2011年(已结题),主要研究人员;
12. 国家重大水专项“三峡库区食品工业园区废水处理关键技术研究与示范”(2008ZX07315-004)课题,2008- 2010年(已结题),主要研究人员;
13. 国家重大水专项“三峡库区城市污水处理厂功能提升与污泥处理处置技术研究与示范”(2009ZX07315-002)课题,2009- 2011年(已结题),主要研究人。
获得荣誉与奖励
1. 2020年度福建省科技进步二等奖:市政道路雨水管理及污染控制关键技术研究与应用,排名第1;
2. 2022年度中国发明协会发明创业创新奖一等奖:城市道路面源污染与内涝协同管控关键技术及应用,排名第1;
3. 2022年度中国施工企业管理协会科学技术进步奖二等奖:城市内河水质改善关键技术研究与应用,排名第2;
4. 福建省研究生教育精品课程:《水质保障理论与技术》,课程负责人。
代表性论文
(1)SCI期刊论文
[1] Fan, Gongduan*; Banghao Du, Jinjin Zhou, et al. Stable Ag2O/g-C3N4 p-n heterojunction photocatalysts for efficient inactivation of harmful algae under visible light. Applied Catalysis B: Environmental, 118610, 2020.(ESI高被引论文)
[2] Fan, Gongduan*; Yifan You, Bo Wang, et al. Inactivation of harmful cyanobacteria by Ag/AgCl@ ZIF-8 coating under visible light: Efficiency and its mechanisms. Applied Catalysis B: Environmental, 256: 117866, 2019.
[3] Fan, Gongduan*; Xiaomei Zheng, Jing Luo, et al. Rapid synthesis of Ag/AgCl@ZIF-8 as a highly efficient photocatalyst for degradation of acetaminophen under visible light. Chemical Engineering Journal, 351:782-790,2018. (ESI高被引论文)
[4] Fan, Gongduan*; Ning, Rongsheng; Yan, Zhongsen, et al. Double photoelectron-transfer mechanism in Ag−AgCl/WO3/g-C3N4 photocatalyst with enhanced visible-light photocatalytic activity for trimethoprim degradation, Journal of Hazardous Materials, 2021, 403: 123964. (ESI高被引论文)
[5] Fan, Gongduan; Zhan, Jiajun; Luo, Jing, et al. Fabrication of heterostructured Ag/AgCl@g-C3N4@UIO-66(NH2) nanocomposite for efficient photocatalytic inactivation of Microcystis aeruginosa under visible light, Journal of Hazardous Materials, 2021, 404: 124062. (ESI高被引论文)
[6] Fan, Gongduan*; Ning, Rongsheng; Xia, Li, et al. Mussel-Inspired Immobilization of Photocatalysts with Synergistic Photocatalytic–Photothermal Performance for Water Remediation, ACS Applied Materials & Interfaces, 2021(封面文章)
[7] Yan, Zhongsen; Qu, Fangshu*; Liang, Heng; Yu, Huraong; Pang, Heliang; Rong, Hongwei; Fan, Gongduan*; Van der Bruggen, Bart; Effect of biopolymers and humic substances on gypsum scaling and membrane wetting during membrane distillation, Journal of Membrane Science, 2021, 617: 118638. (ESI高被引论文、ESI热点论文)
[8] Fan, Gongduan*; Hong, Liang; Luo, Jing et al. Photocatalytic inactivation of harmful algae and degradation of cyanotoxins microcystin-LR using GO-based Z-scheme nanocatalysts under visible light. Chemical Engineering Journal, 123767, 2019.
[9] Fan, Gongduan*; Du, Banghao; Zhou, Jinjin; Yan, Zhongsen; You, Yifan; Luo, Jing; Porous self-floating 3D Ag2O/g-C3N4 hydrogel and photocatalytic inactivation of Microcystis aeruginosa under visible light, Chemical Engineering Journal, 2021, 404: 126509.
[10] Fan, Gongduan; Xia Li, Xiaolei Chen, et al. Z-scheme Ag3PO4@polyaniline core-shell nanocomposite with high visible light photocatalytic performance for Microcystis aeruginosa inactivation, Chemical Engineering Journal, 2021.
[11] Fan, Gongduan*; Minchen Bao, Xiaomei Zheng, et al. Growth inhibition of harmful cyanobacteria by nanocrystalline Cu-MOF-74: Efficiency and its mechanisms. Journal of Hazardous Materials, 367: 529-538, 2019.
[12] Fan, Gongduan; Cai, Chenjian; Chen, Zhuoyi; Luo, Jing; Du, Banghao; Yang, Shangwu; Wu, Jiaxin; Visible-light-drivenself-floating Ag2MoO4/TACN@ LF photocatalyst inactivation of Microcystis aeruginosa: Performance and Mechanisms, Journal of Hazardous Materials, 2022: 129932.
[13] Fan, Gongduan; Zhang, Junkai; Zhan, Jiajun, et al. Recyclable self-floating A-GUN-coated foam as effective visible-light-driven photocatalyst for inactivation of Microcystis aeruginosa, Journal of Hazardous Materials, 2021.
[14] Fan, Gongduan; Chen, Zhong; Yan, Zhongsen, et al. Efficient integration of plasmonic Ag/AgCl with perovskite-type LaFeO3: Enhanced visible-light photocatalytic activity for removal of harmful algae, Journal of Hazardous Materials, 2021, 409: 125018.
[15] Fan, Gongduan*; Lin, Xin; You, Yifan; Du, Banghao; Li, Xia; Luo, Jing; Magnetically separable ZnFe2O4/Ag3PO4/g-C3N4 photocatalyst for inactivation of Microcystis aeruginosa: Characterization, performance and mechanism, Journal of Hazardous Materials, 2022, 421: 126703.
[16] Fan, Gongduan*; Ning, Rongsheng; Huang, Keshu; Wang, Shumin*; You, Yifan; Du, Banghao; Yan, Zhongsen*; Hydrologic characteristics and nitrogen removal performance by different formulated soil medium of bioretention system, Journal of Cleaner Production, 2021, 290: 125873.
[17] Du, Banghao; Fan, Gongduan*; Yang, Shangwu; Chen, Zhuoyi; Luo, Jing; Yu, Weiwei; Yu, Junyi; Wei, Qi; Lu, Yushan; Sonophotocatalytic degradation of 17β-estradiol by Er3+-CdS/MoS2: The role and transformation of reactive oxygen species, Journal of Cleaner Production, 2022, 333: 130203.
[18] Yan, Zhongsen; Lu, Zhenyu; Chen, Xiaolei; Fan, Gongduan*; Qu, Fangshu*; Pang, Heliang; Liang, Heng; Integration of seeding- and heating-induced crystallization with membrane distillation for membrane gypsum scaling and wetting control, Desalination, 2021, 511: 115115.
[19] Yan, Zhongsen; Jiang, Yuling; Chen, Xiaolei; Zhenyu, Lu; Wei, Zhongqing; Fan, Gongduan*; Liang, Heng; Qu, Fangshu*; Evaluation of applying membrane distillation for landfill leachate treatment, Desalination, 2021,511.
[20] Fan, Gongduan; Chen, Chongguo, Chen, Xiaolei; Li, Zhongsheng, Bao, Shulei; Luo, Jing Tang, Dingsheng; Yan, Zhongsen*; Enhancing the antifouling and rejection properties of PVDF membrane by Ag3PO4-GO modification, Science of the Total Environment, 2021
[21] Fan, Gongduan*; Lin, Ruisheng; Wei, Zhongqing; Xiao, Yougan; Shangguan, Haidong; Song, Yiqing; Effects of low impact development on the stormwater runoff and pollution control, Science of the Total Environment, 2021: 150404.
[22] Fan, Gongduan*; Chen, Zhong; Hong, Liang; Du, Banghao; Yan, Zhongsen; Zhan, Jiajun; You, Yifan; Ning, Rongsheng; Xiao, Heshun; Simultaneous removal of harmful algal cells and toxins by a Ag2CO3-N:GO photocatalyst coating under visible light, Science of the Total Environment, 2020, 741: 140341.
[23] Du, Banghao; Fan, Gongduan*; Yu, Weiwei; Yang, Shuo; Zhou, Jinjin; Luo, Jing; Occurrence and risk assessment of steroid estrogens in environmental water samples: A five-year worldwide perspective, Environmental Pollution, 2020, 267: 115405.
[24] Fan, Gongduan; Cai, Chenjian; Yang, Shangwu; Du, Banghao; Luo, Jing; Chen, Yongfu; Lin, Xin; Li, Xia; Wang, Yingmu; Sonophotocatalytic degradation of ciprofloxacin by Bi2MoO6/FeVO4 heterojunction: Insights into performance, mechanism and pathway, Separation and Purification Technology, 2022: 122251.
[25] Fan, Gongduan; Li, Xia; Lin, Jiuhong; Wu, Xinyi; Zhang, Ling; Wu, Jiaxin; Wang, Yingmu; Efficient photocatalytic inactivation of Microcystis aeruginosa via self-floating Ag3VO4/BiVO4 hydrogel under visible light, Separation and Purification Technology, 2022, 299: 121803.
[26] Yan, Zhongsen; Chen, Xiaolei; Bao, Shulei; Chang, Haiqing; Liu, Hongliang; Fan, Gongduan*; Wang, Qiankun; Fu, Xianzhi; Qu, Fangshu*; Liang, Heng; Integration of in situ Fenton-like self-cleaning and photothermal membrane distillation for wastewater treatment via Co-MoS2/CNT catalytic membrane, Separation and Purification Technology, 2022: 122207.
[27] Fan, Gongduan*; Zhou, Jinjin; Zheng, Xiaomei; Luo, Jing; Hong, Liang; Qu, Fangshu; Fast photocatalytic inactivation of Microcystis aeruginosa by metal-organic frameworks under visible light, Chemosphere, 2020, 239: 124721.
[28] Fan, Gongduan*; Zhong, Chen; Shiping Gu, et al. Self-floating photocatalytic hydrogel for efficient removal of Microcystis aeruginosa and degradation of microcystins-LR, Chemosphere, 2021, 284, 131283.
[29] Fan, Gongduan *, Zhongsheng Li, Shumin Wang, et al.Migration and transformation of nitrogen in bioretention system during rainfall runoff. Chemosphere, 232: 54-62,2019.
[30] Fan, Gongduan*; Luo, Jing; Guo, Liang et al. Doping Ag/AgCl in zeolitic imidazolate framework-8 (ZIF-8) to enhance the performance of photodegradation of methylene blue. Chemosphere, 209:44-52,2018.
[31] Fan, Gongduan; Bao, Shulei; Guo, Yang; Xia, Mingqian; Lin, Mingcai; Cai, Shujuan; Ruan, Weifang; Liao, Tingting; Yan, Zhongsen; Spatio-temporal variations of salinity and analysis of desalination factors in a Chinese coastal storage reservoir, Process Safety and Environmental Protection, 2022, 159: 26-35.
[32] Fan, Gongduan; Zhang, Junkai; Wang, Yingmu; Huang, Keshu; Wang, Shumin; Yao, Yixin; Luo, Jing; Microbial community and nitrogen transformation pathway in bioretention system for stormwater treatment in response to formulated soil medium, Process Safety and Environmental Protection, 2022, 161: 594-602.
[33] Fan, Gongduan*; Yang, Shangwu; Du, Banghao; Luo, Jing; Lin, Xin; Li, Xia; Sono-photo hybrid process for the synergistic degradation of levofloxacin by FeVO4/BiVO4: Mechanisms and kinetics, Environmental Research, 2022, 204: 112032.
[34] Fan, Gongduan *, Jiajun Zhan, Jing Luo, et al. Photocatalytic degradation of naproxen by a H2O2-modified titanate nanomaterial under visible light irradiation. Catalysis Science & Technology, 17:4614-4628, 2019.
[35] Fan, Gongduan *, Huiping Peng, Jin Zhang, et al. Degradation of acetaminophen in aqueous solution under visible light irradiation by Bi-modified titanate nanomaterials: morphology effect, kinetics and mechanism. Catalysis Science & Technology, 8:5906-5919, 2018.
[36] Cai, Chenjian; Fan, Gongduan*; Du, Banghao; Chen, Zhuoyi; Lin, Jiuhong; Yang, Shangwu; Lin, Xin; Li, Xia; Metal-organic-framework-based photocatalysts for microorganism inactivation: a review, Catalysis Science & Technology, 2022, 12(12): 3767-3777.
[37] Cai, Chenjian; Fan, Gongduan*; Du, Banghao; Chen, Zhuoyi; Lin, Jiuhong; Yang, Shangwu; Lin, Xin; Li, Xia; Metal-organic-framework-based photocatalysts for microorganism inactivation: a review, Catalysis Science & Technology, 2022, 12(12): 3767-3777.
[38] Fan, Gongduan *, Minchen Bao, Bo Wang, et al. Inhibitory Effects of Cu2O/SiO2 on the Growth of Microcystis aeruginosa and Its Mechanism. Nanomaterials, 9: 1669, 2019.
[39] Fan, Gongduan; Chen, Zhuoyi; Xia, Mingqian*, et al. Optimization of remedial nano-agent and its effect on dominant algal species succession in eutrophic water body. Journal of Environmental Management, 281, 111884,2021.
[40] Fan, Gongduan; Song, Yiqing; Xia, Mingqian*; You, Yifan; Zou, Jianyong; Wei, Qi; Photocatalytic inactivation of algae in a fluidized bed photoreactor with an external magnetic field, Journal of Environmental Management, 2022, 307: 114552.
[41] Fan, Gongduan*; You, Yifan; Yan, Zhongsen; Xia, Mingqian; Hong, Liang; Du, Banghao; Luo, Jing; Pang, Heliang; Enhanced photocatalytic performance of Z-scheme N-doped Ag2CO3/GO (AGON) for microcystin-LR remediation under visible light, Journal of Water Process Engineering, 2021, 39: 101882.
[42] Fan, Gongduan*; Li, Zhongsheng; Yan, Zhongsen; Wei, Zhongqing; Xiao, Yougan; Chen, Shoubin; Shangguan, Haidong; Lin, Hui; Chang, Haiqing; Operating parameters optimization of combined UF/NF dual-membrane process for brackish water treatment and its application performance in municipal drinking water treatment plant, Journal of Water Process Engineering, 2020, 38: 101547.
[43] Fan, Gongduan; Bao, Shulei; Guo, Yang; Xia, Mingqian; Lin, Mingcai; Cai, Shujuan; Ruan, Weifang; Liao, Tingting; Yan, Zhongsen*; Spatio-temporal variations of salinity and analysis of desalination factors in a Chinese coastal storage reservoir, Process Safety and Environmental Protection, 2022, 159: 26-35.
[44] Fan, Gongduan*; Lin, Jiuhong; Xia, Mingqian; Luo, Jing; Du, Banghao; Pang, Heliang; Yan, Zhongsen; Impact of Extracellular Polymeric Substance in the Inactivation of Harmful Algae by Ag2O/g‐C3N4 under Visible Light, Particle & Particle Systems Characterization, 2020: 2000272.
[45] Fan, Gongduan *, Jinjin Zhou, Xiaomei Zheng, et al. Growth Inhibition of Microcystis aeruginosa by Copper‐based MOFs: Performance and Physiological Effect on Algal Cells. Applied Organometallic Chemistry,2018.
[46] Shumin Wang*, Xiuyong Lin, Hui Yu, Zhaodong Wang, Hongxia Xia, Jinshuo An, Fan, Gongduan *,Nitrogen Removal from Urban Stormwater Runoff by Stepped Bioretention Systems. Ecological Engineering,106, 340-348, 2017.
[47] Fan, Gongduan *, Zhong Chen, Bo Wang, et al. Photocatalytic Removal of Harmful Algae in Natural Waters by Ag/AgCl@ ZIF-8 Coating under Sunlight. Catalysts, 9: 698, 2019
[48] Fan, Gongduan *, Rongsheng Ning, Jing Luo, et al. Visible-light-driven photocatalytic degradation of naproxen by Bi-modified titanate nanobulks: Synthesis, degradation pathway and mechanism. Journal of Photochemistry and Photobiology A: Chemistry,386, 112108, 2020
[49] Fan, Gongduan *, Liang Hong, Xiaomei Zheng, et al. Growth inhibition ofMicrocystic aeruginosa by metal–organic frameworks: effect of variety, metal ion and organic ligand. RSC Advances,8(61):35314-35326,2018.
[50] Fan, Gongduan *, Zhaoyue Su, Rujing Lin, et al. Removal of organics by combined process of coagulation-chlorination-ultrafiltration: optimization of overall operation parameters. Environmental Technology,39(21):2703-2714,2018.
(2)中文学术论文
[1] 范功端*, 陈丽茹, 林茹晶, 林茜, 苏昭越, 林修咏, 合成时间对钛酸盐纳米材料的影响及其吸附水中铅的性能研究, 环境科学, 37, 668-679, 2016. (EI)
[2] 范功端*, 林茹晶,苏昭越,林修咏,许仁星,陈薇, 利用藻类构建微生物燃料电池研究进展. 化工进展, 35(12):3841-3847,2016.
[3] 范功端*, 苏昭越, 林茹晶, 等, 村镇三圆式一体化净水装置改造及调试运行, 中国给水排水, 32(5), 9-13, 2016.
[4] 范功端*, 林茹晶, 魏忠庆, 黄功洛, 苏昭越, 超滤一体化装置处理低温期闽江水的效能研究, 中国给水排水, 32(17), 51-55, 2016.
[5] 范功端*,苏昭越,魏忠庆,黄功洛,林 茜,林茹晶,陈丽茹. 超滤/反渗透一体化装置处理苦咸水的中试研究. 中国给水排水, 31(17), 7-11, 2015.
[6] 范功端*, 陈丽茹, 张显忠, 林茜, 道路雨水污染控制及利用应用研究及工程实例, 中国给水排水, 30(11), 151-155, 2014.
[7] 范功端*, 郑小梅, 苏昭越, 魏忠庆, 许仁星,彭慧萍,罗劲, 响应面法优化超滤组合工艺的整体运行参数, 中国给水排水, 34(3), 42-47, 2018.
[8] 范功端, 张智*, 任丽平 新建人工湖沉积物磷形态分布及其影响因素实验,重庆大学学报,35(7), 138-144, 2012.
[9] 李俊德;范功端*; 融合进水调度控制的雨水调蓄设施多目标优化设计, 中国给水排水, 2022, 38(9):111-117.
[10] 李俊德;范功端*;邹建勇; 基于差分进化算法的雨水调蓄设施优化调度研究, 中国给水排水, 2021, 37(21):119-124.
专利
[1] 范功端; 陈忠; 罗静; 一种用于去除水体藻类的钙钛矿光催化材料及其制备方法; 发明, 2022, ZL202010413725.9.
[2] 范功端; 李俊德; 陈惠珊; 陈钰; 郑子萱; 一种基于实时气象信息的雨水调蓄设施实时调度方法; 发明, 2022, ZL201910863043.5.
[3] 范功端;林修咏;罗静;许仁星;陈薇;林茹晶;苏昭越; 用于处理初期雨水的多级折流式雨水花园系统及其应用, 发明, 2016, ZL 201610220600.8.
[4] 范功端,林茹晶, 辛怀佳, 罗静, 林茜, 陈丽茹, 苏昭越, 江雪; 一种受污染水体中黑臭底泥资源化处理的方法, 发明, 2016, ZL 201510223029.0.
[5] 鄢忠森; 刘灵珊; 范功端; 卢振宇; 蒋宇铃; 鲍舒蕾;一种膜蒸馏与双极膜电渗析组合的废水处理系统, 发明, 2022, ZL202110582338.2
[6] 吴世闽; 范功端; 庄毅璇等; 用于控制蓝藻水华的水体修复剂及其制备方法和富营养化水体修复方法, 发明, 2022, ZL201910658772.7
[7] 范功端; 李俊德等;城市道路雨水模块化智能利用系统;2020,ZL201920293711.0
[8] 范功端; 陈卓艺; 边归国; 罗静; 鄢忠森; 夏铭谦; 林欣; 一种复合式应急事故池; 2022, ZL 202122282103.X
[9] 范功端; 陈卓艺; 罗静; 王颖慕; 鄢忠森; 夏铭谦; 林欣; 一种罐式一体化污水处理装置; 2022, ZL 202122281942.X
[10] 范功端; 林修咏;罗静;许仁星;陈薇;林茹晶;苏昭越; 用于水质净化的多级曝气生物滤池及其净化工艺, 发明, 2016, ZL 201610198539.1.
[11] 范功端;李俊德;黄贵清;陈钰;郑镇喜;胡晓旭; 城市道路雨水模块化智能利用系统; 2020, ZL 201920293711.0.
[12] 范功端;李中圣;鄢忠森;罗静;杜邦昊;重力驱动光催化超滤净水装置,2021, ZL 202021549032.4.
[13] 范功端,苏昭越, 林茹晶, 罗静, 林修咏,许仁星, 陈薇, 一种用于水处理的一体化装置,2016,ZL 201620253554.7.
[14] 范功端;周津津;郑森林;罗静;游漪凡; 缓解空调废热造成热岛的降温增湿装置; 2020, ZL 201920706484.X.
[15] 范功端;林修咏;罗静;许仁星;陈薇;林茹晶;苏昭越; 一种用于处理初期雨水的多级折流式雨水花园系统, 2016, ZL 201620295525.7.
[16] 范功端;陈薇;罗静; 林修咏;许仁星;林茹晶;苏昭越;一种具有避障功能的浮游太阳能曝气与超声波除藻装置,2016,ZL 201620272091.9.
[17] 范功端;洪亮;罗静;欧阳恒;肖剑仁;包旻晟; 一种超声式过滤装置, 2020, ZL 201920341462.8.
[18] 范功端;陈薇;戴家乐;罗静; 张域; 李中圣; 邱晓雨; 庄贤泉; 一种治理黑臭水体的生态净水装置, 2017, ZL 201720465730.8.
[19] 范功端, 林修咏, 罗静, 许仁星, 陈薇, 林茹晶, 苏昭越, 用于水质净化的多级曝气生物滤池,2016,ZL 201620264501.5.
[20] 范功端;王波;包旻晨;吴世闽;庄毅璇;郑小梅;林明;王磊;李彬辉;黄鑫;谢耀东;申皓月;黄婷; 用于去除水体藻类的光催化海绵, 2020, ZL 201921134953.1.
[21] 范功端;罗静;龙鑫隆;许仁星;郑小梅; 路面初期雨水分流处理一体化装置, 2019, ZL 201920349163.9.
[22] 范功端, 林茜, 许艳盈, 罗静, 陈丽茹, 林茹晶, 苏昭越;浮游式太阳能超声波除藻装置, 2015, ZL 201520510544.2.
[23] 范功端;洪亮;罗静;欧阳恒;周津津;罗林辉;包旻晨; 一种旋流式自动刮泥过滤装置,2019, ZL 201920410043.5.
[24] 范功端;李俊德;昝麒麟;胡晓旭;陈钰;余思臻; 紫外线和光催化联合雨水处理系统,2019, ZL 201920330384.1.
[25] 范功端;卢达文;唐定胜;王培文;蔡俊华;庄燕珍;陈卓艺;杨尚武;林久洪; 一种间歇式隧道废水处理系统, 2021, ZL 202022134699.4.
[26] 林明财;范功端;郭洋;蔡淑娟;阮伟芳;廖庭庭; 一种用于湖水底泥疏浚且促进底泥扰动的船载装置, 2021, ZL 202021616616.9.
[27] 蔡淑娟;范功端;郭洋;林明财;阮伟芳;廖庭庭; 一种用于加速水体淡化的人工生态浮岛, 2021, ZL 202021798223.4.
[28] 肖友淦;范功端;魏忠庆;陈寿彬;彭晓旭;李中圣; 一种淡化苦咸水净水处理装置, 2021, ZL 202022600792.X.
[29] 谷世平;唐定胜;王培文;卢达文;蔡建伟;张开腾;范功端;陈卓艺;杨尚武;林久洪; 一种用于含油隧道废水的一体化处理系统; 2021, ZL 202022134652.8.
[30] 王禹;王培文;唐定胜;卢达文;蔡建伟;张开腾;范功端;陈卓艺;杨尚武;林久洪; 一种用于隧道施工废水处理的事故池组合系统; 2021, ZL 202022134638.8.
[31] 上官海东;魏忠庆;肖友淦;卓雄;肖振超;范功端;杜邦昊;詹佳钧;黄翔峰;陆丽君;吴伟龙; 一种雨天河道自动取样和远程监测装置, 2021, ZL 202020786918.4.
[32] 黄功洛;肖友淦;魏忠庆;范功端; 以超滤为核心的一体化净水装置, 2016, ZL 201620004599.0.
[33] 魏忠庆;陈宏景;范功端;黄功洛;肖友淦;以超滤为核心的集成净水装置,2016,ZL 201620303057.3.
[34] 张智, 向平, 姜文超, 范功端, 一种开式地表水源热泵取水水处理系统,发明, 2011,ZL 2008 1 0237261.X.
教材
[1] 蒋柱武; 范功端; 魏忠庆等;《水质工程学—给水处理》,高等教育出版社,2018.
[2] 蒋柱武; 魏忠庆; 吕永鹏; 范功端等;《水质工程学—污水处理》,高等教育出版社,2019.
[3] 范功端; 刘文勇; 吴家新;《城乡供水一体化建设项目——给水处理工程》,福建省科学技术出版社,2020.
[4] 吴家新;范功端;《城乡供水一体化建设项目——取水工程》,福建省科学技术出版社,2020.
[5] 吴家新;范功端;《城乡供水一体化建设项目——输配水工程》,福建省科学技术出版社,2022.
标准与图集
[1] 福建省地方标准图集:《地表水水源热泵系统取退水及水处理标准设计构造标准图集》,主编;
[2] 福建省地方标准:《分子筛水处理系统技术规程》,主编;
[3] 安徽省地方标准:《城市再生水厂工程技术规范》,主编;
[4] 安徽省地方标准:《城市再生水管网工程技术规范》,主编;
[5] 福建省地方标准:《地表水源热泵系统运行管理技术规程》,参编。
热诚欢迎各位同学加入我们课题组!