林建伟

男， 上海海洋大学海洋生态与环境学院， 教授/研究员/教授级高工或同等级别

学习/工作经历

学习经历：
(1) 2003-09 至 2006-07, 同济大学, 环境科学, 博士
(2) 2000-09 至 2003-07, 重庆大学, 环境工程, 硕士
(3) 1996-09 至 2000-07, 重庆大学, 环境工程, 学士
工作经历：
(1) 2024-02 至 今, 上海海洋大学, 海洋科学与生态环境学院, 教授
(2) 2017-01 至 2024-01, 上海海洋大学, 海洋生态与环境学院, 教授
(3) 2009-09 至 2016-12, 上海海洋大学, 海洋科学学院, 副教授
(4) 2006-07 至 2009-08, 上海海洋大学, 海洋科学学院, 讲师

研究领域和兴趣

环境化学

主要业绩

生态文明建设是关系中华民族永续发展的根本大计。水是生命之源、生产之要、生态之基，是决定可持续发展的战略资源，也是生态文明建设的发力点。内陆水体富营养化是当前人类面临的全球性重大环境问题之一，也是我国水环境治理亟需解决的重要问题。磷是重要的不可再生资源，也是导致水体富营养化的关键限制性营养元素。总磷污染已成我国水治理中亟待解决的重要问题。水体中磷的来源分外源和内源。外源又分为点源和面源。大量的研究表明，即使外源磷输入得到了有效地控制，内源磷释放仍然会导致水体富营养化。控制底泥内源磷释放对于水体磷污染治理至关重要，是根治水体富营养化的重要措施。
原位钝化是目前治理水体底泥内源磷污染的一项重要控制技术。应用原位钝化技术控制水体内源磷释放的首要关键是研发高效、经济且安全的底泥磷钝化材料。金属基材料是一类极具应用潜力的底泥磷钝化材料。然而，目前国内外尚缺乏生态环保且经济高效的金属基底泥磷钝化材料，且金属基钝化材料在实际应用中的有效性和可行性仍然受到挑战。为了推动金属基钝化材料在底泥磷释放控制中的应用，申请人围绕锆基、铁基、钙基、镧基和铁铝钙三金属复合基等材料以及基于这些材料的底泥磷释放控制技术，深入开展了一系列的基础研究，取得了以下的创新研究成果：
（1）揭示了锆基材料吸附水中磷酸盐的新机制，为阐明锆基材料控制底泥磷释放机制提供了理论基础。
1）揭示了共存钙和镁离子对水合氧化锆吸附水中磷酸盐的影响规律及机制，发现了以磷酸盐为架桥的三元配合物形成是钙和镁离子促进水合氧化锆吸附水中磷酸盐的重要机制，厘清了共存钙和镁离子条件下水合氧化锆对水中磷酸盐的吸附机理。
2）阐明了沸石中可交换阳离子在锆改性沸石吸附水中磷酸盐过程中的作用及其机制，诠释了膨润土中可交换阳离子对锆改性膨润土吸附水中磷酸盐的影响，提出了锆改性沸石和锆改性膨润土吸附水中磷酸盐的新机制。
（2）研发了锆基底泥磷钝化材料，揭示了锆基材料控制底泥磷释放的机制，阐明了应用模式的影响规律，并提出了效果提升策略，为应用锆基材料控制底泥磷释放提供了科学依据，为安全、高效且经济的水体内源磷释放控制技术研发提供了重要参考。
1）研发了高效、经济且安全的锆基底泥磷钝化材料，揭示了锆基材料添加和覆盖对底泥磷迁移转化的影响规律，发现了底泥-水界面下方“磷静态层”的形成是锆基材料控制底泥磷释放的关键机制，阐明了应用模式对锆基材料控制底泥磷释放的影响规律及机制。
2）构建了基于磁铁矿和锆基材料的可回收底泥覆盖系统，借助透水性土工织物材料的围隔作用和磁铁矿的强磁性，可以避免锆基材料和底泥的混合，并提升锆基材料控制底泥磷释放的长期效果。
3）构建了钙基材料和锆基材料联用控制底泥磷释放的新方法，利用钙基材料对锆基材料吸附水中磷酸盐的促进作用提升锆基材料控制底泥磷释放的效果。
（3）揭示了多种铁基材料添加和覆盖对底泥磷迁移转化的影响规律及机制，提出了基于铁基材料的底泥磷释放控制新方法，为高效、经济且安全的水体内源磷释放控制技术研发提供了参考依据。
1）厘清了水铁矿、磁铁矿、针铁矿、赤铁矿、零价铁、磁铁矿改性活性炭、铁负载沸石和铁改性方解石等铁基材料添加和覆盖对底泥磷迁移转化的影响特征及机制，揭示了上述不同类型铁基材料调控底泥磷迁移转化效应及机制的差异性，为发展基于铁基材料的底泥磷释放控制技术提供了科学依据。
2）开发了基于水铁矿和磁铁矿的回收便利的活性覆盖系统，制备简单、应用方便，且可重复利用，能够有效回收磷资源。
3）提出了一种沸石、方解石和水合氧化铁联用控制底泥磷释放的新方法，利用沸石和方解石对水合氧化铁吸附水中磷酸盐的促进作用提升水合氧化铁控制底泥磷释放的效果。
（4）厘清了沸石中可交换阳离子类型对沸石与方解石联用控制底泥磷释放的影响规律，发现了沸石中可交换钙离子含量是决定沸石和方解石联合覆盖层控制底泥磷释放的关键，提出了基于沸石和方解石联用的底泥磷释放控制新方法，揭示了沸石和方解石联用控制底泥磷释放的机制，为高效、经济且安全的底泥磷释放控制技术研发提供了参考依据。
（5）识别了不同镧存在形式镧基材料对底泥磷迁移转化影响的区别，揭示了常见阴阳离子的老化效应与机制，研发了新型的可回收镧基材料，为应用镧基材料控制底泥磷释放提供了科学依据。
1）揭示了氢氧化镧和碳酸镧对底泥磷迁移转化的影响特征及机制，厘清了以镧离子、氢氧化镧、碳酸镧和碳酸氧镧等形式存在的镧基材料对底泥磷迁移转化影响的差异性，为选择最佳的镧基材料用于底泥磷释放控制提供了科学依据。
2）针对常见阴阳离子老化效应及机制不明的问题，阐述了常见阴阳离子老化对镧改性膨润土控制底泥磷释放的影响规律及机制，为评估镧改性膨润土对底泥磷释放的长期控制效果提供了理论依据。
3）针对传统镧基材料难以回收这个问题，研发了新型的磁性镧基底泥磷钝化材料，提出了基于磁性镧改性膨润土的底泥磷释放控制新方法，为符合可持续发展理念的水体内源磷释放控制技术研发提供了新思路。
（6）针对单一铁基、铝基和钙基材料各自存在的缺陷，研发了一种可以发挥单一组分各自优势的新型铁铝钙三金属复合基底泥磷钝化材料，即铁铝联合改性方解石，并揭示了铁铝联合改性方解石添加和覆盖控制底泥磷释放的效果及机制，阐明了悬浮颗粒物沉降对铁铝联合改性方解石控制底泥磷释放的影响规律，提出了克服悬浮颗粒物沉降负面影响的策略，为应用原位钝化技术控制悬浮颗粒物沉降频繁水体底泥磷释放提供了新思路。
累计发表学术论文113篇，在Web of Science数据库中他引1741 次，以第一或通讯作者（包括共同）在《Water Research》等国内外学术期刊上发表论文100余篇，其中SCI论文50篇，JCR1区期刊论文38篇，授权国家发明专利16项，其中以第1发明人授权国家发明专利12项，获得教育部高等学校科技进步奖二等奖（6/9）、上海市浦东新区科学技术奖三等奖（1/5）等科研奖励4项。

代表成果

1. 论文
[1] Siyu Jin, Jianwei Lin*, Yanhui Zhan. Immobilization of phosphorus in water-sediment system by iron-modified attapulgite, calcite, bentonite and dolomite under feed input condition: Efficiency, mechanism, application mode effect and response of microbial communities and iron mobilization. Water Research, 2023, 247: 120777.
[2] Jianwei Lin*, Yan Li, Yanhui Zhan, Xugan Wu*. Combined amendment and capping of sediment with ferrihydrite and magnetite to control internal phosphorus release. Water Research, 2023, 235: 119899.
[3] Fujun Sun, Yanhui Zhan, Jianwei Lin*. Effect of capping mode on control of phosphorus release from sediment by lanthanum hydroxide. Environmental Science and Pollution Research, 2023, 30: 79026-79048.
[4] Yuqian Lu, Jianwei Lin*, Xugan Wu*, Zhan, Yanhui. Control of phosphorus release from sediment by hydrous zirconium oxide combined with calcite, bentonite and zeolite. Chemosphere. 2023, 332: 138892.
[5] Yanhui Zhan, Bo Qiu, Jianwei Lin*. Effect of common ions aging treatment on adsorption of phosphate onto and control of phosphorus release from sediment by lanthanum-modified bentonite. Journal of Environmental Management, 2023, 341: 118109.
[6] Jianwei Lin*, Weijie Xiang, Yanhui Zhan. Comparison of magnetite, hematite and goethite amendment and capping in control of phosphorus release from sediment. Environmental Science and Pollution Research, 2023, 30: 66080-66101.
[7] Xiangtian Yang, Jianwei Lin*, Yanhui Zhan. Effect of aged nanoscale zero-valent iron amendment and capping on phosphorus mobilization in sediment. Chemical Engineering Journal, 2023, 451: 139072.
[8] Jiajia Lei, Jianwei Lin*, Yanhui Zhan, Xin Wen, Yanqi Li. Effect of sediment burial depth on the control of sedimentary phosphorus release by iron/aluminum co-modified calcite and strategy for overcoming the negative effect of sediment burial. Science of The Total Environment, 2022, 838: 156467.
[9] Chi Liu, Jianwei Lin*, Zhibin Zhang, Yanhui Zhan, Dazhu Hu. Effect of application mode (capping and amendment) on the control of cadmium release from sediment by apatite/calcite mixture and its phosphorus release risk. Environmental Science and Pollution Research, 2022, 29: 59846-59861.
[10] Niuniu Liu, Wanyan Chen, Jianwei Lin*, Yanhui Zhan. Contrasting effect of zirconium-, iron-, and zirconium/iron-modified attapulgites capping and amendment on phosphorus mobilization in sediment. Environmental Science and Pollution Research, 2022, 29: 18508-18526.
[11] Junlin Wu, Jianwei Lin*, Yanhui Zhan. Interception of phosphorus release from sediments using Mg/Fe-based layered double hydroxide (MF-LDH) and MF-LDH coated magnetite as geo-engineering tools. Science of the Total Environment, 2020, 739: 139749.
[12] Jianwei Lin*, Yuying Zhao, Yanhui Zhan, Yan Wang. Control of internal phosphorus release from sediments using magnetic lanthanum/iron-modified bentonite as active capping material. Environmental Pollution, 2020, 264: 114809.
[13] Jianwei Lin*, Yan Wang, Yanhui Zhan. Novel, recyclable active capping systems using fabric-wrapped zirconium-modified magnetite/bentonite composite for sedimentary phosphorus release control. Science of the Total Environment, 2020, 727: 138633.
[14] Jianwei Lin*#, Yan Wang, Siqi He, Yanhui Zhan, Zhibin Zhang*#, Danhe Wang, Zhe Zhang. Synthesis and evaluation of zirconia/magnetite/zeolite composite for controlling phosphorus release from sediment: A laboratory study. Ecological Engineering, 2020, 151: 105874.
[15] Yanhui Zhan, Yang Yu, Jianwei Lin*. Impact of application mode on the control of phosphorus release from sediments using zirconium-modified bentonite as geo-engineering material. Science of the Total Environment. 2020, 712: 135633.
[16] Yanhui Zhan, Xiaolong Wu, Jianwei Lin*. Combined use of calcium nitrate, zeolite, and anion exchange resin for controlling phosphorus and nitrogen release from sediment and for overcoming disadvantage of calcium nitrate addition technology. Environmental Science and Pollution Research, 2020, 27(20): 24863-24878.
[17] Jianwei Lin*, Siqi He, Yanhui Zhan, Honghua Zhang. Evaluation of phosphate adsorption on zirconium/magnesium-modified bentonite. Environmental Technology, 2020, 41: 586-602.
[18] Yanhui Zhan, Yang Yu, Jianwei Lin*, Xiaolong Wu, Yan Wang, Yuying Zhao. Assessment of iron-modified calcite/zeolite mixture as a capping material to control sedimentary phosphorus and nitrogen liberation. Environmental Science and Pollution Research, 2020, 27: 3962-3978.
[19] Jianwei Lin*, Yuying Zhao, Yanhui Zhan, Yan Wang. Influence of coexisting calcium and magnesium ions on phosphate adsorption onto hydrous iron oxide. Environmental Science and Pollution Research, 2020, 27: 11303-11319.
[20] Jianwei Lin*, Yang Yu, Yanhui Zhan, Shujing Liang, Zhe Zhang, Siqi He. Utilization of zirconium-modified granular zeolite as capping and mixing materials to suppress phosphorus release from sediment in landscape water body. Environmental Earth Sciences, 2020, 79:27-44.
[21] Yanhui Zhan, Mingyue Chang, Jianwei Lin*. Suppression of phosphorus release from sediment using lanthanum carbonate as amendment. Environmental Science and Pollution Research, 2021, 28: 3280-3295.
[22] Xiaoyun Bai, Jianwei Lin*, Zhibin Zhang, Boyang Liu, Yanhui Zhan, Dazhu Hu. Interception of sedimentary phosphorus release by iron-modified calcite capping. Journal of Soils and Sediments, 2021, 21: 641-657.
[23] Yanhui Zhan#, Yang Yu#, Jianwei Lin#*, Xiaolong Wu, Yan Wang, Yuying Zhao. Simultaneous control of nitrogen and phosphorus release from sediments using iron-modified zeolite as capping and amendment materials. Journal of Environmental Management, 2019, 249: 109369.
[24] Yanhui Zhan#, Xiaolong Wu#, Jianwei Lin#*, Zhe Zhang, Yuying Zhao, Yang Yu, Yan Wang. Combined use of calcium nitrate addition and anion exchange resin capping to control sedimentary phosphorus release and its nitrate nitrogen releasing risk. Science of the Total Environment, 2019, 689: 203-214.
[25] Jianwei Lin*#, Yan Wang#, Yanhui Zhan, Zhibin Zhang*. Magnetite-modified activated carbon based capping and mixing technology for sedimentary phosphorus release control. Journal of Environmental Management, 2019, 248: 109287.
[26] Jianwei Lin*#, Yuying Zhao#, Zhibin Zhang*#, Yanhui Zhan, Zhe Zhang, Yan Wang, Yang Yu, Xiaolong Wu. Immobilization of mobile and bioavailable phosphorus in sediments using lanthanum hydroxide and magnetite/lanthanum hydroxide composite as amendments. Science of the Total Environment, 2019, 687: 232-243.
[27] Jianwei Lin*, Xingxing Wang, Yanhui Zhan*. Effect of precipitation pH and coexisting magnesium ion on phosphate adsorption onto hydrous zirconium oxide. Journal of Environmental Sciences, 2019, 76:167-187.
[28] Jianwei Lin*#, Siqi He, Yanhui Zhan#, Zhe Zhang, Xiaolong Wu, Yang Yu, Yuying Zhao, Yan Wang. Assessment of sediment capping with zirconium-modified bentonite to intercept phosphorus release from sediments. Environmental Science and Pollution Research, 2019, 26: 3501-3516.
[29] Jianwei Lin*#, Siqi He, Xingxing Wang, Honghua Zhang#, Yanhui Zhan*#. Removal of phosphate from aqueous solution by a novel Mg(OH)2/ZrO2 composite: Adsorption behavior and mechanism. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 561: 301-314.
[30] Jianwei Lin*#, Siqi He, Honghua Zhang#, Yanhui Zhan, Zhibin Zhang. Effect of zirconium-modified zeolite addition on phosphorus mobilization in sediments. Science of the Total Environment, 2019, 646: 144-157.
[31] Jianwei Lin*#, Bohui Jiang, Yanhui Zhan#. Effect of pre-treatment of bentonite with sodium and calcium ions on phosphate adsorption onto zirconium-modified bentonite. Journal of Environmental Management, 2018, 217: 183-195.
[32] Yanhui Zhan#, Honghua Zhang#, Jianwei Lin*, Zhe Zhang, Jian Gao. Role of zeolite's exchangeable cations in phosphate adsorption onto zirconium-modified zeolite. Journal of Molecular Liquids, 2017, 243: 624-637.
[33] Jianwei Lin*, Zhe zhang, Yanhui Zhan. Effect of humic acid preloading on phosphate adsorption onto zirconium-modified zeolite. Environmental Science and Pollution Research, 2017, 24(13):12195-12211.
[34] Jianwei Lin*, Yanhui Zhan, Hong Wang, Ming Chu, Chunfeng Wang, Yu He, Xingxing Wang. Effect of calcium ion on phosphate adsorption onto hydrous zirconium oxide. Chemical Engineering Journal, 2017, 309: 118-129.
[35] Jianwei Lin*, Hong Wang, Yanhui Zhan, Zhe Zhang. Evaluation of sediment amendment with zirconium-reacted bentonite to control phosphorus release. Environmental Earth Sciences, 2016, 75 (11): 942-958.
[36] Mengjuan Yang, Jianwei Lin*, Yanhui Zhan, Zhiliang Zhu, Honghua Zhang. Immobilization of phosphorus from water and sediment using zirconium-modified zeolites. Environmental Science and Pollution Research, 2015, 22(5): 3606-3619.
[37] Jia Li, Yanhui Zhan, Jianwei Lin*, Ai Jiang, Wang Xi. Removal of bisphenol A from aqueous solution using cetylpyridinium bromide (CPB)-modified natural zeolites as adsorbents. Environmental Earth Sciences, 2014, 72(10): 3969-3980.
[38] Mengjuan Yang, Jianwei Lin*, Yanhui Zhan, Honghua Zhang. Adsorption of phosphate from water on lake sediments amended with zirconium-modified zeolites in batch mode. Ecological Engineering, 2014, 71: 223-233.
[39] Yanli Sun, Jianwei Lin*, Yanhui Zhan, Adsorption of Congo Red from aqueous solution on surfactant-modified zeolites with different coverage types: Behavior and mechanism. Separation Science and Technology, 2013, 48(13): 2036-2046.
[40] Yanhui Zhan, Jianwei Lin*, Jia Li. Preparation and characterization of surfactant-modified hydroxyapatite/zeolite composite and its adsorption behavior toward humic acid and copper(II). Environmental Science and Pollution Research, 2013, 20(4): 2512-2526.
[41] Jianwei Lin*, Yanhui Zhan. Adsorption of humic acid from aqueous solution onto unmodified and surfactant-modified chitosan/zeolite composites. Chemical Engineering Journal, 2012, 200-202: 202-213.
[42] Jianwei Lin*, Yanhui Zhan, Zhiliang Zhu, Yunqing Xing. Adsorption of tannic acid from aqueous solution onto surfactant-modified zeolite. Journal of Hazardous Materials, 2011, 193: 102-111.
[43] Jianwei Lin*, Yanhui Zhan, Zhiliang Zhu. Adsorption characteristics of copper (II) ions from aqueous solution onto humic acid-immobilized surfactant-modified zeolite. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011, 384(1-3): 9-16.
[44] Yanhui Zhan, Jianwei Lin, Yanling Qiu, Naiyun Gao, Zhiliang Zhu*. Adsorption of humic acid from aqueous solution on bilayer hexadecyltrimethyl ammonium bromide-modified zeolite. Frontiers of Environmental Science & Engineering in China, 2011, 5(1): 65-75.
[45] Yanhui Zhan, Jianwei Lin*, Zhiliang Zhu. Removal of nitrate from aqueous solution using cetylpyridinium bromide (CPB) modified zeolite as adsorbent. Journal of Hazardous Materials, 2011, 186(2-3): 1972-1978.
[46] Jianwei Lin*, Yanhui Zhan, Zhiliang Zhu. Evaluation of sediment capping with active barrier systems (ABS) using calcite/zeolite mixtures to simultaneously manage phosphorus and ammonium release. Science of the Total Environment, 2011, 409(3): 638-646.
[47] Yanhui Zhan, Zhiliang Zhu*, Jianwei Lin, Yanling Qiu, Jianfu Zhao. Removal of humic acid from aqueous solution by cetylpyridinium bromide modified zeolite. Journal of Environmental Sciences, 2010, 22(9): 1327-1334.
2. 专利
[1] 林建伟, 詹艳慧, 王丹赫, 姜博汇, 王星星. 一种地表水体内源磷释放原位控制方法. 2018.7.20, 中国, 发明专利, ZL201610242227.6.
[2] 林建伟, 詹艳慧, 储鸣, 王星星, 姜博汇, 章喆. 一种用于底泥氮磷释放控制的原位组合方法. 2018.7.20, 中国, 发明专利, ZL201610168604.6.
[3] 林建伟, 詹艳慧, 王春峰, 王丹赫, 邢云青.一种用于地表水体污染底泥修复及营养盐释放控制的方法. 2018.7.13, 中国, 发明专利, ZL201610159860.9.
[4] 林建伟, 詹艳慧, 王春峰, 邢云青, 王星星. 一种污染底泥覆盖球及其制备方法及应用. 2018.6.22, 中国, 发明专利, ZL201610168601.2.
[5] 林建伟, 詹艳慧, 邢云青, 姜博汇, 王星星, 章喆. 一种用于地表水体黑臭底泥修复的原位组合方法. 2018.2.6, 中国, 发明专利, ZL201610169400.4.
[6] 林建伟, 詹艳慧, 杨孟娟, 郑雯婧, 方巧, 李佳. 一种原位控制地表水体底泥氮磷释放的活性覆盖系统和方法. 2016.2.10, 中国, 发明专利, ZL201310419706.7.
[7] 詹艳慧, 林建伟. 一种控制底泥磷释放的底泥活性覆盖系统和方法. 2015.7.29, 中国, 发明专利, ZL201210246668.5.
[8] 林建伟, 詹艳慧. 一种地表水体污染底泥的原位修复方法. 2014.4.16, 中国, 发明专利, ZL201210162877.1.
[9] 詹艳慧, 林建伟. 一种磁性壳聚糖/阳离子表面活性剂改性沸石吸附剂及其制备方法和应用. 2014.1.8, 中国, 发明专利, ZL201210017766.1.
[10] 詹艳慧, 林建伟. 一种羟基磷灰石-改性沸石复合材料吸附剂及其制备方法和应用. 2013.12.25, 中国, 发明专利, ZL201210003760.9.
[11] 林建伟, 詹艳慧, 邢云青, 李佳. 磁性阳离子表面活性剂改性壳聚糖/羟基磷灰石/沸石复合物及其制备方法和应用. 2013.6.26, 中国, 发明专利, ZL201110335397.6.
[12] 林建伟, 詹艳慧, 邢云青, 孙艳丽, 李佳. 一种羟基磷灰石改性蛋壳吸附剂材料去除和回收废水中磷酸盐的方法. 2013.6.5, 中国, 发明专利, ZL201110325471.6.
[13] 林建伟, 詹艳慧, 邢云青, 王春峰, 储鸣. 一种去除和回收废水中磷酸盐的方法. 2013.6.5, 中国, 发明专利, ZL201110335400.4.

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