可持续发展目标联合国教科文组织UNEVOC网络成员
有意报读学生教大学生教职员校友职位申请人访客
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环境健康

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本研究的倡议针对全球日益严重的环境问题,尤其是人口稠密城市中产生的新兴污染物和有机废物。新兴污染物涵盖所有有毒化学品,如持久性有机污染物、内分泌干扰化学物质和新兴关注化学物质(例如塑化剂、双酚A、微塑胶和纳米塑胶等)。内分泌干扰化学物质和新兴关注化学物质广泛用于工业和消费品,已被归类为重要的环境污染物。它们的持久性、生物累积性和环境中普遍存在的特征引起广泛关注。有机废物和塑胶也在环境中积累,从而产生显著的环境和健康问题,并使其处理变得复杂。

 

与我们合作

 

永续发展目标

2015年,联合国成员国同意17项全球永续发展目标(SDG),旨在消除贫穷、保护地球、和确保全民繁荣。研究团队致力于以下永续发展目标的实现:

 

有关研究员

曾耀辉博士

科学与环境学系

tsangyf@eduhk.hk

更多资料

 

最近的研究表明,内分泌干扰化学物质和新兴关注化学物质在环境中广泛存在,并已经在多种水生物种的组织中检测到。然而,由于缺乏有效检测内分泌干扰化学物质和新兴关注化学物质的方法和其去除的新技术,它们对环境和健康的风险仍然知之甚少。这些污染物对公共健康造成的成本和风险促使我们需要对香港环境中的这些污染物进行全面的环境和健康评估。包括厨余和污泥在内的有机废物已成功用作主要原材料来生产增值材料,如鱼饲料和环保建材。这不仅减轻了现有垃圾堆积区的废物处理压力,还促进了循环经济的发展。此外,利用廉价的有机废物生产生物可降解的塑胶是一种可持续废物管理的替代方案,并具有可真正的生物降解等多种环境效益。

 

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我们期望研究能带来新的资讯,包括:(1) 在当地水环境和尿液样本中量化内分泌干扰化学物质和新兴关注化学物质,评估其环境和健康风险和这些新兴污染物在学生中的水平;(2) 开发有效去除污水和滤水中内分泌干扰化学物质和新兴关注化学物质的新技术;以及 (3) 将有机废物转化为优良品质的动物饲料、生物可降解塑胶、生物炭、生物吸附剂、生物燃料、环保建材和肥料。转废为材替代传统物料的潜在应用也将进一步评估。新的科学发现将被转化成探究为基础的教学和学习材料,以及社区教育的STEAM教育活动。

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这些研究结果为解决香港和亚洲日益严重的环境健康及有机废物问题提供了一种可持续、低成本和有效的解决方案。这些方案引起了公众的高度关注,同时满足了政府和行业的需求。本研究最具创新性的是建议使用相对传统的污水处理厂和滤水厂来处理大量的内分泌干扰化学物质和新兴关注化学物质,取代实施更昂贵的三级处理替代方案来针对这些新兴污染物。从长远来看,预期所提议技术的全面应用将能够迅速适应(1)现有基础设施,以有效控制和管理水环境中的这些新兴污染物,以及(2)这些材料在不同环境应用中的使用,如安全食品生产、污染控制与管理、土壤养分管理和可再生能源回收,无论是在本地还是全球范围内。

 

研究资助

资助计划 

杰出青年学者计划

海水养殖中微塑胶生物膜中的抗药性基因和病原体动态研究

环境及自然保育基金

微塑料生物膜促进的水生病原体和抗生素抗性在香港水域的转移、富集及其潜在机制

香港私募基金 – 行业

在凤园谷特殊科学兴趣区水环境和陆地生态系统中微塑料及风化微塑料的快速定量开发与验证

环境及自然保育基金

利用环境基因研究香港东部水域的海洋食物网互动及其对环境梯度和珊瑚生物侵蚀的反应

改善海洋生态基金

评估香港海洋水域中风化微塑料与共存有机污染物对生态及人类健康的风险

SKLMP协作研究种子基金

香港水域环境中风化纳米塑料与有毒污染物共同暴露的风险评估

优配研究金

稻壳和椰子壳活性炭作为饲料添加剂以减少罗非鱼对金属/类金属、多环芳烃和多氯联苯的吸收

优配研究金

解析城市污水系统中质粒介导的抗菌素耐药基因传播

优配研究金

海洋微生物对微塑料的定殖及其健康和毒理影响

环境及自然保育基金

在香港不同设计的污水处理厂中,微塑料的识别、特征分析及工艺改进以提高去除效率

水务署

水务污泥回收用于生产铺路砖的研究

香江学者计划

在光生物反应器中,工程化生物炭与藻类-细菌联合体复合物去除特定药物及个人护理产品(PPCPs)和内分泌干扰物(EDCs)的机制研究

渔农自然护理署

在香港养殖海鱼中多环芳香烃和二氯二苯三氯乙烯分析服务

优配研究金

用毒性效应导向分析技术评估香港和比利时小朋友尿液中存在的内分泌干扰物

杰出青年学者计划

植物性生物炭鱼饲料用于降低草鱼中可持续污染物的研究

SKLMP协作研究种子基金

在含有生物炭的生物反应器中,特定内分泌干扰物(EDCs)去除机制的研究

 

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  1. Rajapaksha, A.U.#, Ok, Y.S.#, El-Naggar, A., Kim, H., Song, F., Kang, S.*, & Tsang, Y.F.* (2019). Dissolved organic matter characterization of biochars produced from different feedstock materials. Journal of Environmental Management, 233, 393-399.
    doi.org/10.1016/j.jenvman.2018.12.069
  1. Hu, J., Guo, H., Xue, Y., Gao, M.-T., Zhang, S.*, Tsang, Y.F.*, Li, J., Wang, Y.-N., & Wang, L. (2019). Using a mixture of microalgae, biochar, and organic manure to increase the capacity of soil to act as carbon sink. Journal of Soils and Sediments, 19, 3718-3727.
    doi.org/10.1007/s11368-019-02337-z
  1. Mo, W.Y.#, Man, Y.B.#, Zhang, F., & Wong, M.H.* (2019). Fermented food waste for culturing jade perch and Nile tilapia: Growth performance and health risk assessment based on metal/loids. Journal of Environmental Management, 236, 236-244.
    doi.org/10.1016/j.jenvman.2019.01.102
  1. Li, N., Ho, W., Wu, R.S.S., Tsang, E.P.K., Ying, G.-G.*, & Deng, W.-J.* (2019). Ultra violet filters in the urine of preschool children and drinking water. Environment International, 133, 105246.
    doi.org/10.1016/j.envint.2019.105246

 

国际成就或奖项

  1. 第九届加拿大国际发明创新大赛(iCAN 2024) 银奖
  1. 第九届加拿大国际发明创新大赛(iCAN 2024) 加拿大杰出特别奖
  1. 硅谷国际发明创新节(SVIIF 2024) 银奖
  1. 香港第三届亚洲创新发明展览会2023金奖
  1. 德国「国际创意、发明及新产品展」(iENA 2023) 铜奖
  1. 第八届加拿大国际发明创新大赛(iCAN 2023)大会特选奖
  1. 第八届加拿大国际发明创新大赛(iCAN 2023)金奖
  1. 第八届加拿大国际发明创新大赛(iCAN 2023)卓越证书
  1. 第48届日内瓦国际发明展2023评审团祝贺金奖 [香港教育大学首次在日内瓦夺得此奖项]
  1. 第十三届台湾国际创新发明大赛(IIIC 2022)银奖
  1. 第七届加拿大国际发明创新大赛(iCAN 2022)大会特选奖
  1. 第七届加拿大国际发明创新大赛(iCAN 2022)金奖
  1. 2022 年国际发明家协会联合会 - 中东焦点 (IFIA-FPME) 特别奖
  1. 瑞士日内瓦国际发明展2021年特别版 银奖
  1. 第十一届台湾国际创新发明大赛(IIIC 2020)银奖
  1. 第五届加拿大国际发明创新大赛(iCAN 2020)二十大最佳发明奖
  1. 第五届加拿大国际发明创新大赛(iCAN 2020)金奖
  1. 多伦多国际创新与先进技能协会(TISIAS 2020)特别奖
  1. 2018-2019、2020 年《食品与农业科学期刊》下载次数最多的论文(Wiley)
  1. 2019年国际高等院校发明大会暨博览会(PECIPTA’19)金奖
  1. 第47届日内瓦国际发明展2019 银奖

 

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