可持續發展目標聯合國教科文組織UNEVOC網絡成員
有意報讀學生教大學生教職員校友職位申請人訪客
A-Z 通訊錄傳媒圖書館
EN

環境健康

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本研究的倡議針對全球日益嚴重的環境問題,尤其是人口稠密城市中產生的新興污染物和有機廢物。新興污染物涵蓋所有有毒化學品,如持久性有機污染物、內分泌干擾化學物質和新興關注化學物質(例如塑化劑、雙酚A、微塑膠和納米塑膠等)。內分泌干擾化學物質和新興關注化學物質廣泛用於工業和消費品,已被歸類為重要的環境污染物。它們的持久性、生物累積性和環境中普遍存在的特徵引起廣泛關注。有機廢物和塑膠也在環境中積累,從而產生顯著的環境和健康問題,並使其處理變得複雜。

 

與我們合作

 

永續發展目標

2015年,聯合國成員國同意17項全球永續發展目標(SDG),旨在消除貧窮、保護地球、和確保全民繁榮。研究團隊致力於以下永續發展目標的實現:

 

有關研究員

曾耀輝博士

科學與環境學系

tsangyf@eduhk.hk

更多資料

 

最近的研究表明,內分泌干擾化學物質和新興關注化學物質在環境中廣泛存在,並已經在多種水生物種的組織中檢測到。然而,由於缺乏有效檢測內分泌干擾化學物質和新興關注化學物質的方法和其去除的新技術,它們對環境和健康的風險仍然知之甚少。這些污染物對公共健康造成的成本和風險促使我們需要對香港環境中的這些污染物進行全面的環境和健康評估。包括廚餘和污泥在內的有機廢物已成功用作主要原材料來生產增值材料,如魚飼料和環保建材。這不僅減輕了現有垃圾堆積區的廢物處理壓力,還促進了循環經濟的發展。此外,利用廉價的有機廢物生產生物可降解的塑膠是一種可持續廢物管理的替代方案,並具有可真正的生物降解等多種環境效益。

 

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我們期望研究能帶來新的資訊,包括:(1) 在當地水環境和尿液樣本中量化內分泌干擾化學物質和新興關注化學物質,評估其環境和健康風險和這些新興污染物在學生中的水平;(2) 開發有效去除污水和濾水中內分泌干擾化學物質和新興關注化學物質的新技術;以及 (3) 將有機廢物轉化為優良品質的動物飼料、生物可降解塑膠、生物炭、生物吸附劑、生物燃料、環保建材和肥料。轉廢為材替代傳統物料的潛在應用也將進一步評估。新的科學發現將被轉化成探究為基礎的教學和學習材料,以及社區教育的STEAM教育活動。

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這些研究結果為解決香港和亞洲日益嚴重的環境健康及有機廢物問題提供了一種可持續、低成本和有效的解決方案。這些方案引起了公眾的高度關注,同時滿足了政府和行業的需求。本研究最具創新性的是建議使用相對傳統的污水處理廠和濾水廠來處理大量的內分泌干擾化學物質和新興關注化學物質,取代實施更昂貴的三級處理替代方案來針對這些新興污染物。從長遠來看,預期所提議技術的全面應用將能夠迅速適應(1)現有基礎設施,以有效控制和管理水環境中的這些新興污染物,以及(2)這些材料在不同環境應用中的使用,如安全食品生產、污染控制與管理、土壤養分管理和可再生能源回收,無論是在本地還是全球範圍內。

 

研究資助

資助計劃 

傑出青年學者計劃

海水養殖中微塑膠生物膜中的抗藥性基因和病原體動態研究

環境及自然保育基金

微塑料生物膜促進的水生病原體和抗生素抗性在香港水域的轉移、富集及其潛在機制

香港私募基金 – 行業

在鳳園谷特殊科學興趣區水環境和陸地生態系統中微塑料及風化微塑料的快速定量開發與驗證

環境及自然保育基金

利用環境基因研究香港東部水域的海洋食物網互動及其對環境梯度和珊瑚生物侵蝕的反應

改善海洋生態基金

評估香港海洋水域中風化微塑料與共存有機污染物對生態及人類健康的風險

SKLMP協作研究種子基金

香港水域環境中風化納米塑料與有毒污染物共同暴露的風險評估

優配研究金

稻殼和椰子殼活性炭作為飼料添加劑以減少羅非魚對金屬/類金屬、多環芳烴和多氯聯苯的吸收

優配研究金

解析城市污水系統中質粒介導的抗菌素耐藥基因傳播

優配研究金

海洋微生物對微塑料的定殖及其健康和毒理影響

環境及自然保育基金

在香港不同設計的污水處理廠中,微塑料的識別、特徵分析及工藝改進以提高去除效率

水務署

水務污泥回收用於生產鋪路磚的研究

香江學者計劃

在光生物反應器中,工程化生物炭與藻類-細菌聯合體複合物去除特定藥物及個人護理產品(PPCPs)和內分泌干擾物(EDCs)的機制研究

漁農自然護理署

在香港養殖海魚中多環芳香烴和二氯二苯三氯乙烯分析服務

優配研究金

用毒性效應導向分析技術評估香港和比利時小朋友尿液中存在的內分泌干擾物

傑出青年學者計劃

植物性生物炭魚飼料用於降低草魚中可持續污染物的研究

SKLMP協作研究種子基金

在含有生物炭的生物反應器中,特定內分泌干擾物(EDCs)去除機制的研究

 

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  1. Shafaghat, H.#, Lee, H.W.#, Tsang, Y.F.#, Oh, D., Jae, J., Jung, S.-C., Ko, C.H., Lam, S.S., & Park, Y.-K.* (2019). In-situ and ex-situ catalytic pyrolysis/co-pyrolysis of empty fruit bunches using mesostructured aluminosilicate catalysts. Chemical Engineering Journal, 366, 330-338.
    doi.org/10.1016/j.cej.2019.02.055
  1. Lee, T., Oh, J.I., Yi, H., Tsang, Y.F.*, & Kwon, E.E.* (2019). Fabrication of carbon-slag composite via a pyrolytic platform and its environmental application for arsenic removal as a case study. Chemical Engineering Journal, 361, 1630-1639.
    doi.org/10.1016/j.cej.2019.01.022
  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

 

國際成就或獎項

  1. 第九屆加拿大國際發明創新大賽(iCAN 2024) 銀獎
  1. 第九屆加拿大國際發明創新大賽(iCAN 2024) 加拿大傑出特別獎
  1. 矽谷國際發明創新節(SVIIF 2024) 銀獎
  1. 香港第三屆亞洲創新發明展覽會2023金獎
  1. 德國「國際創意、發明及新產品展」(iENA 2023) 銅獎
  1. 第八屆加拿大國際發明創新大賽(iCAN 2023)大會特選獎
  1. 第八屆加拿大國際發明創新大賽(iCAN 2023)金獎
  1. 第八屆加拿大國際發明創新大賽(iCAN 2023)卓越證書
  1. 第48屆日內瓦國際發明展2023評審團祝賀金獎 [香港教育大學首次在日內瓦奪得此獎項]
  1. 第十三屆台灣國際創新發明大賽(IIIC 2022)銀獎
  1. 第七屆加拿大國際發明創新大賽(iCAN 2022)大會特選獎
  1. 第七屆加拿大國際發明創新大賽(iCAN 2022)金獎
  1. 2022 年國際發明家協會聯合會 - 中東焦點 (IFIA-FPME) 特別獎
  1. 瑞士日內瓦國際發明展2021年特別版 銀獎
  1. 第十一屆台灣國際創新發明大賽(IIIC 2020)銀獎
  1. 第五屆加拿大國際發明創新大賽(iCAN 2020)二十大最佳發明獎
  1. 第五屆加拿大國際發明創新大賽(iCAN 2020)金獎
  1. 多倫多國際創新與先進技能協會(TISIAS 2020)特別獎
  1. 2018-2019、2020 年《食品與農業科學期刊》下載次數最多的論文(Wiley)
  1. 2019年國際高等院校發明大會暨博覽會(PECIPTA’19)金獎
  1. 第47屆日內瓦國際發明展2019 銀獎

 

新聞報導

  1. 南韓核電站洩漏核廢液出海 學者指對海洋生態影響視乎放射性物質濃度, TVB無綫電視「無綫新聞」, 13 Jan 2025.
  1. “生態磚”, 有線新聞「智創未來」, 30 Mar 2024.
  1. “國際發明展教大奪7獎 污水微塑膠「快測」儀器獲評判特別嘉許金獎”, TVB無綫電視「無綫新聞」, 14 Jun 2023.
  1. “國際發明展教大奪7獎 污水微塑膠「快測」儀器獲評判特別嘉許金獎”, TVB無綫電視myTV SUPER, 14 Jun 2023.
  1. “教大智能測斜視更快更準 另一微塑膠「快測」技術 同揚威日內瓦發明展”, 明報, 14 Jun 2023.
  1. “教大研微塑膠快測系統發明展奪金”, 星島日報, 14 Jun 2023.
  1. “日內瓦國際發明展 教大獲7獎項”, 東方日報, 14 Jun 2023.
  1. “教大研微塑膠快測 省時慳成本”, 信報, 14 Jun 2023.
  1. “教大微塑膠快測AI驗斜視 奪發明獎”, 香港經濟日報, 14 Jun 2023.
  1. “教大研微塑膠快測 國際發明展奪金”, 大公報, 14 Jun 2023.
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  1. “教育科技創新巡禮昨日舉行”, 香港商報, 14 Jun 2023.
  1. “教大研微塑膠快測 國際發明展奪金”, 中國評論新聞網, 14 Jun 2023.
  1. “教大研微塑膠快測AI辨斜視齊奪金”, 香港仔, 14 Jun 2023.
  1. “教大研發的微塑膠快測及AI斜視測量 日內瓦發明展奪2金”, Line Today, 13 Jun 2023.
  1. “教大兩科研發明 獲日內瓦國際發明展金獎”, Yahoo新聞, 13 Jun 2023.
  1. “教大憑微塑膠「快測」技術獲獎 獲污水廠應用”, 明報, 13 Jun 2023.
  1. “教大日內瓦國際發明展奪2金 AI測量系統數分鐘可識別斜視患者”, 香港經濟日報, 13 Jun 2023.
  1. “教大研AI系統診斷斜視患者 數分鐘準確評估 獲日內瓦發明展金獎”, 香港01, 13 Jun 2023.
  1. “教大獲國際發明展7獎項 微塑膠快測及AI斜視測量奪金”, 東網, 13 Jun 2023.
  1. “教大兩科研發明 獲日內瓦國際發明展金獎”, Now新聞台, 13 Jun 2023.
  1. “Faster and cheaper way to check for microplastics in Hong Kong drinking water unveiled by Education University”, SCMP, 13 Jun 2023.
  1. “教大研發的微塑膠快測及AI斜視測量 日內瓦發明展奪2金”, 商業電台881903.com, 13 Jun 2023.
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