汙染控制與資源利用創新團隊

时间: 2020/07/23   作者:   点击:

 

一.團隊簡介

團隊立足農業環境保護和環境汙染控制領域國際前沿,面向國家需求,緊扣我國農業生産與農村生態環境面臨的重大課題,依托湖南省環境保護畜禽養殖與農業種植汙染控制工程技術中心湖南省農業典型汙染物生態修複與實地保護國際科技合作基地湖南省農村生活汙水處理處置工程研究中心等省部級科研與教學平台,開展農業與農村流域水土汙染治理與修複、環境材料與廢物資源化、環境汙染物及檢測技術、環境汙染物生態毒理學等方面的科研與教學、技術推廣工作。

團隊近5年來,團隊先後承擔了50余項國家級省部級研究課題,獲資助1800余萬元,在國內外期刊發表研究論文150余篇,獲得專利10余項,省部級獎勵2項,主持或參與編制國家級和團體標准/行業標准4項。

二.團隊人員

團隊現有固定成員14人,包括教授4人,副教授7人,其中湖南省委組織部青年百人計劃1人,香江學者”1人,國家博士後創新人才1人,湖南省省青年骨幹教師2人、雷火电竞app官方下载“1515”人才學術骨幹2人、雷火电竞app官方下载神农学者青年英才層次人才5人,現有博士後、博士、碩士研究生近30人。 

序號

姓名

學曆

職稱

從事方向

1

博士

教授

固體廢物資源化、重金屬汙染土壤與水體修複

2

顔智勇

博士

教授

農村和工業汙水處理及裝備化

3

吳根義

博士

教授

農業面源汙染防治、畜禽養殖汙染防治與管理

4

秦普豐

博士

教授

重金屬汙染場地修複和汙水處理處置

5

顔丙花

博士

教授

固體廢物資源化、厭氧膜生物反應

6

張嘉超

博士

教授

固體廢物資源化、重金屬物汙染土壤修複

7

周耀渝

博士

教授

典型農業區土壤及地下水汙染修複

8

羅惠莉

博士

副教授

重金屬汙染農田修複、農藥殘留檢測

9

黃紅麗

博士

副教授

固體廢物資源化、重金屬物汙染水體與土壤修複

10

戴春皓

博士

副教授

區域大氣汙染物防治

11

羅双

博士

副教授

有機汙染物治理、環境模型、複雜廢水處理

12

謝先德

博士

副教授

重金屬汙染修複與治理

13

曹林英

博士

副教授

環境毒理學與評價

14

張立華

博士

副教授

固體廢物資源化、環境微生物

15

楊建

博士

副教授

環境安全學、環境汙染風險評估

16

鄧娜

博士

講師

流域與區域汙染修複與規劃

17

楊遠

博士

講師

分析化學與納米顆粒

18

彭慧

博士

講師

濕地汙染物治理與修複

19

智丹

博士

講師

環境功能材料與應用

三.主要研究方向

1. 礦山酸性廢水被動式處理技術與推廣

爲解決鐵離子在被動式處理系統中造成的堵塞問題、錳離子在系統中難去除的問題,提出了鐵錳氧化-硫酸鹽還原的技術路線。前端鐵錳氧化采用由雷火电竞app官方下载篩選馴化的鐵錳氧化菌,利用生物固錳除錳理論,將鐵錳氧化菌與材料進行組配,應用生物擴培技術,進行接種。該菌能在酸性條件下對鐵錳重金屬離子進行氧化,形成生物錳氧化物。末端應用硫酸鹽還原生物濾池,通過異化SO42-爲電子受體將其還原,它能把硫酸鹽、亞硫酸鹽、硫代硫酸鹽、單硫還原爲硫化物,在處理富含硫酸鹽和金屬離子的廢水具有較強的能力,利用SRB可以同時去除廢水中硫酸根和金屬離子,從而達到以廢治廢的目的。

新型汙染物控制技術的研發和推廣是環境工程重要的研究方向,系統開展了基于鐵錳新材料和新工藝的研發與推廣,通過對現有鐵錳材料的定向修飾和基于鐵錳氧化還原工藝的改良,針對性的用于新型環境汙染物的處理,爲汙染物的控制提供切實可行的技術方案。

2. 農業源新型汙染物的環境歸趨及風險評價

主要开展农业源新型污染物在环境中的迁移、转化、归趋、及其对生態系统各要素的影响,包括水解、氧化降解、光降解、生物降解、降解产物毒性、污染物在环境介质中的累积、污染物对生態系统各要素的毒性;利用模拟实验和污染物结构与性质/活性定量關系(QSAR)模型計算等研究方法,預測汙染物在環境中的遷移、歸趨和毒性,爲農業源化學品的風險評價和管理提供數據支撐。

3. 環境健康與汙染物生態毒理

新興有機汙染物內分泌幹擾效應及分子機制:從分子、細胞、動物活體以及理論模擬計算等多個層面,系統研究新興汙染物通過幹擾內分泌系統對人體健康的危害作用,包括生殖發育毒性、激素相關癌症以及糖尿病和肥胖等代謝相關疾病,並探究汙染物毒害作用的分子起始事件和毒性通路以及汙染物的結構-效應關系。

納米毒理及聯合毒性:主要研究納米塑料、金屬納米材料、納米農藥等的細胞毒性及分子機制,與典型汙染物聯合暴露的生物效應及作用機制。

微汙染物複合生態毒理:通過不同營養級生物的生態毒理評價方法和基于細胞關鍵毒性通路的體外高通量診斷技術,評價實際環境介質中微汙染物的複合生態毒性及毒理機制。

4. 基于種養平衡調控的農林有機固廢定向化學生物轉化及應用

開展基于種養平衡調控的農林廢棄物定向化學生物轉化機制研究,實現農林廢棄物碳氮磷等關鍵元素的平衡和資源化利用,對于提高廢棄物資源化利用效率和價值和推動湖南農業綠色可持續發展具有重要的現實意義。

項目團隊根據湖南區域種養高度分離和集約化水平較低的特點,通過稭稈制生物炭解決其利用中儲存、運輸難的問題,突破生物炭調控稭稈與畜禽糞汙共堆肥過程碳氮元素釋放的技術瓶頸,結合厭氧産沼和堆肥化等相關技術的元素轉化規律和生物學機制的深入研究,系統闡釋農林廢棄物定向化學生物處置的效率與機制,掌握化學生物處理處置過程中抗生素及殘留農藥等毒害物質的轉化與減控機理,實現碳氮磷元素平衡的農林廢棄物全量、高價資源化利用。

四.承擔的主要科研項目

[1]      国家重点研发計劃项目,2016YFC0403000,重金屬廢水深度處理與安全利用技術集成示範及轉化模式,2016.09-2019.08,主持人:羅琳

[2]      國家自然科學基金青年項目,2190605,基于雌激素膜受體GPER探究新煙堿農藥對乳腺癌增殖轉移的影響及分子機制,2020.01-2022.12,主持人:曹林英

[3]      國家自然科學基金青年項目,UV活化亞硫酸鹽/過硫酸鹽協同礦化難降解有機汙染物的機理及模型研究,2019.01-2021.12,主持人:羅双

[4]      國家自然科學基金青年項目,21806170,厭氧發酵集成離子置換型電滲析強化揮發性脂肪酸代謝和CO2回用的效能與機制研究,2019.01-2021.12,主持人:顔丙花

[5]      國家自然科學基金青年基金,21806003,洛克沙胂在針鐵礦/水界面的光化學轉化行爲及機理研究,2019.01-2021.12,主持人:謝先德

[6]      國家自然科學基金青年項目,51709103,雜化多孔碳納米鐵微囊修複地下水中芳香族有機砷汙染的效能及機理研,2018.01-2020.12,主持人:周耀渝

[7]      國家自然科學基金青年項目,51408219,農業廢物堆肥氨氧化細菌(AOB)和古菌(AOA)對基質微環境變化的響應特征及驅動氨氧化的關鍵因子分析,2015.01-2017.12,主持人:張嘉超

[8]      國家自然科學基金青年項目,51108178,禽畜糞便堆肥對印度芥菜修複重金屬汙染土壤中銅鋅遷移轉化的影響,2012.01-2014.12,主持人:黃紅麗

[9]      国家博士后创新人才支持計劃,BX20200127,以小型豬爲模型研究抗菌劑三氯卡班誘導脂代謝異常和肥胖的分子機制,2021.01-2022.12,主持人:曹林英

[10]    第二次全國汙染源普查農業行業普查數據宏觀質量校核技術方案編制,2018.12-2019.12,主持人:吳根義

[11]    中國博士後科學基金面上項目,2017M620507典型苯胂酸類化合物在鐵錳氧化物上的吸附解吸機理研究2017.10-2019.3,主持人:謝先德

[12]    中國博士後基金,典型金屬納米顆粒在水-水稻體系中遷移轉化及毒性研究,2019-2021年,No. 2019M652768,主持人:楊遠

[13]    湖南省自然科學基金青年項目,2020JJ5222,新煙堿農藥通過雌激素膜受體GPER介導的雌激素幹擾分子機制研究,2021.01-2022.12,主持人:曹林英

[14]    湖南省自然科學基金,水-水稻體系中鉑納米顆粒遷移轉化及納米毒性研究, 2020-2022年,No.2020JJ5227,主持人:楊遠

[15]    湖南省自然科學基金項目,農業廢物堆肥化過程中酒糟及其生物炭添加的N2O減排特征及微生物學機制,2020/04-2023/03,主持人:張嘉超

[16]    湖南省重點研發項目,2019SK2281,入河水體重金屬汙染阻控與銻微汙染深度淨化關鍵技術,2019.07-2021.06,课题负责人:羅双

[17]    湖南省自然科學基金,湘自科2018JJ3240,農業面源區域氨基汙染源對大氣細顆粒物貢獻率及轉化機理研究,2018.01-2020.12,主持人:戴春皓

[18]    湖南省重点研发計劃项目,2018SK2022,高濃度含铊廢水高效處理技術及集成裝備研發,2018.01-2020.12,主持人:黃紅麗

[19]    湖南省重點研發項目,湿式氧化调理污泥多元复配制备砷污染土壤专用修复剂技术及示范,2017.09-2020.08,课题负责人:張嘉超

[20]    湖南省重點研發項目,2016WK2010,典型農藥汙染物在水環境中的痕量快速檢測及強化去除技術集成與示範,2016.09-2018.08,主持人:張嘉超

[21]    湖南省科技計劃项目,2015WK3016,湘江流域重金屬礦山酸性廢水的耐受微生物種群的篩選及其生物固定化處理技術,2016.01-2018.12,主持人:羅琳

[22]    湖南省自然科學基金,高級還原-高級氧化協同礦化新型含氯有機農藥的機理及預測模型研究,2019.01-2021.12,在研,主持人:羅双

[23]    山東省自然科學基金項目,ZR2016BB06, 電膜原位分離促進餐廚垃圾與剩余汙泥高固厭氧共消化産脂肪酸的應用研究,2016.11-2018.08, 主持人:顔丙花

[24]    湖南省重点研发計劃,稻田重金属污染修复的新型硅肥技术引进创新与示范,2019.01-2021.122019KW2031,课题负责人:楊遠

五.發表學術論文

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[2] Qiming Mao, Yaoyu Zhou, Yuan Yang, Jiachao Zhang, Lifen Liang, Hailong Wang, Shuang Luo?, Lin Luo?, Paramsothy Jeyakumar, Yong Sik Ok, Muhammad Rizwan. Experimental and theoretical aspects of biochar-supported nanoscale zero-valent iron activating H2O2 for ciprofloxacin removal from aqueous solution. Journal of Hazardous Materials, 2019, 380:120848.

[3] Dongmei Hou, Pan Zhang, Dongning Wei, Jiachao Zhang, Binghua Yan, Linying Cao, Yaoyu Zhou*, Lin Luo*. Performance and microbial community profiles in pilot-scale biofilter for the simultaneous removal of ammonia, iron and manganese at different manganese concentrations. Bioprocess and Biosystems Engineering, 2019, 42(5):741-752.

[4] Danxing Yang, Xiaocheng Liu, Yaoyu Zhou*, Lin Luo*, Jiachao Zhang, Anqi Huang, Qiming Mao, Xiao Chen, Lin Tang. Aptamer-based biosensors for detection of lead(II) ion: a review, Analytical methods, 2017,9(13): 1976-1990.

[5] Rui Zhou, Xiaochen Liu, Lin Luo*, Yaoyu Zhou*, Jianhong Wei, Anwei Chen, Lin Tang, Haipeng Wu, Yaocheng Deng, Fengfeng Zhang, Yangyang Wang. Remediation of Cu, Pb, Zn and Cd-contaminated agricultural soil using a combined red mud and compost amendment, International Biodeterioration & Biodegradation, 2017, 118:73-81.

[6] Cao Lin-Ying, Ren Xiao-Min*, Yang Yu, et al. Hydroxylated polybrominated biphenyl ethers exert estrogenic effects via nongenomic G protein-coupled estrogen receptor mediated pathways. Environmental Health Perspectives, 2018, 126 (5), 057005.

[7] Cao Lin-Ying, Zheng Zi-Ye., Ren Xiao-Min, et al. Structure-dependent activity of polybrominated diphenyl ethers and their hydroxylated metabolites on estrogen related receptor γ: in vitro and in silico study. Environmental Science & Technology, 2018, 52 (15), 8894–8902.

[8] Cao Lin-Ying, Ren Xiao-Min*, Li Chuan-Hai, et al. Bisphenol AF and bisphenol B exert higher estrogenic effects than bisphenol A via G protein coupled estrogen receptor pathway, Environmental Science & Technology, 2017, 51 (19), 11423-11430.

[9] Cao Lin-Ying, Ren Xiao-Min*, Li Chuan-Hai, et al. Organophosphate esters bind to and inhibit estrogen-related receptor γ in cells. Environmental Science & Technology Letters, 2018, 5(2), 68-73.

[10] Lin-Ying Cao*, Yun-Hao Xu, Sen He, et al. Antimicrobial triclocarban exhibits higher agonistic activity on estrogen-related receptor γ than triclosan at human exposure levels: a novel estrogenic disruption mechanism. Environmental Science & Technology Letters, 2020, 2020, 7 (6): 434-439.

[11] Dai C., Qin P. Wang Z. et al. Mercury enrichment in Brassica napusin response to elevated atmospheric mercury concentrations. Frontiers of Environmental Science & Engineering, 2017, 11(1):1-8.

[12] Dai C., Zhou Y., Peng H., et al. Current progress in remediation of chlorinated volatile organic compounds: a review. Journal of Industrial and Engineering Chemistry, 2018,106-119.

[13] Dai C., Huang S., Zhou Y., et al. Concentrations and emissions of particulate matter and ammonia from extensive livestock farm in South China. Environmental Science and Pollution Research, 2018, 26.1871-1879.

[14] Dai C., Huang S, Peng H., et al. Particulate pollution status and its characteristics during 2015-2016 in Hunan, China. Atmospheric Pollution Research, 2019, 10, 739-748.

[15] Hongli Huang, Lin Luo, Liuhui Huang, Jiachao Zhang, Petros Gikas, Yaoyu Zhou. Effect of Manure Compost on Distribution of Cu and Zn in Rhizosphere Soil and Heavy Metal Accumulation by Brassica juncea. Water Air Soil Pollution, 2020, 231, 195.

[16] Dongning Wei, Bingyu Li, Lin Luo, Yongxin Zheng, Liuhui Huang, Jiachao Zhang, Yuan Yang, Hongli Huang*. Simultaneous adsorption and oxidation of antimonite onto nano zero-valent iron sludge-based biochar: Indispensable role of reactive oxygen species and redox-active moieties. Journal of Hazardous Materials, 2020, 391: 122057.

[17] Dongning Wei, Bingyu Li, Hongli Huang*, Lin Luo, Jiachao Zhang, Yuan Yang, Jiajun Guo, Lin Tang, Guangming Zeng, Yaoyu Zhou. Biochar-based functional materials in the purification of agricultural wastewater: Fabrication, application and future research needs. Chemosphere, 2018, 197: 165-180.

[18] Shuang Luo, Liyuan Chai, Dionysios D. Dionysiou, Ruiyang Xiao, et al. Kinetic and mechanistic aspects of hydroxyl radical?mediated degradation of naproxen and reaction intermediates. Water Research, 2018,137: 233-241. ESI高被引

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[20] Shuang Luo, Ruiyang Xiao, Liyuan Chai, Dionysios D. Dionysiou, et al. UV direct photolysis of sulfamethoxazole and ibuprofen: An experimental and modelling study. Journal of Hazardous Materials, 2018, 343:132–139. ESI高被引

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[22] Shuang Luo, Ruiyang Xiao, Liyuan Chai, et al. A novel model to predict gas-phase hydroxyl radical oxidation kinetics of polychlorinated compounds. Chemosphere, 2017, 172: 333-340. ESI高被引

[23] Xie, X.; Cheng, H. A simple treatment method for phenylarsenic compounds: Oxidation by ferrate (VI) and simultaneous removal of the arsenate released with in situ formed Fe(III) oxide-hydroxide. Environment International, 2019, 127, 730.

[24] Xie, X.; Zhao, W.; Hu, Y.; Xu, X.; Cheng, H. Permanganate oxidation and ferric ion precipitation (KMnO4-Fe(III)) process for treating phenylarsenic compounds. Chemical Engineering Journal, 2019, 357, 600.

[25] Xie, X.; Hu, Y.; Cheng, H. Rapid degradation of p-arsanilic acid with simultaneous arsenic removal from aqueous solution using Fenton process. Water Research, 2016, 89, 59.

[26] Xie, X.; Hu, Y.; Cheng, H. Mechanism, kinetics, and pathways of self-sensitized sunlight photodegradation of phenylarsonic compounds. Water Research, 2016, 96, 136.

[27] Xie, X.; Zhang, Z.; Hu, Y.; Cheng, H. A mechanistic kinetic model for singlet oxygen mediated self-sensitized photo-oxidation of organic pollutants in water. Chemical Engineering Journal, 2018, 334 (Supplement C), 1242.

[28] Yan, B.H., Selvam, A., Wong, J. W., 2020. Bio-hydrogen and methane production from two-phase anaerobic digestion of food waste under the scheme of acidogenic off-gas reuse. Bioresource technology, 297, 122400.

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[30] Zhou, M. M., Yan, B. H.*, Lang, Q. L., Zhang, Y. * 2019. Elevated volatile fatty acids production through reuse of acidogenic off-gases during electro-fermentation. Science of the Total Environment, 668, 295-302.

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[35] Qiang Wang, Lei Li, Li Luo, Yuan Yang*, Zhaoguang Yang*, Haipu Li, Yaoyu Zhou. Activation of Persulfate with Dual-doped Reduced Graphene Oxide for Degradation of Alkylphenols. Chemical Engineering Journal, 2019, 367, 120891.

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六.國際合作與學術交流

项目团队依托的“湖南省農業典型汙染物生態修複與實地保護國際科技合作基地”,是我省第一个(2018年)批准成立的以農業農村環境汙染治理與濕地保護爲工作核心的國際合作基地。基地建設探索開展項目-人才-基地相結合的國際科技合作模式,通過積極吸引彙聚國際創新力量和資源,集聚世界一流專家學者,合作培養國際化人才。能夠有效地推動協同創新和開放創新,引領和支撐國家創新驅動發展戰略實施,進一步擴大科技對外影響力,提升國際科技合作的質量和水平,並對我國農業面源汙染防控、農業水資源安全利用、農業與礦山的可持續發展産生引領和示範效果。

項目團隊通過與法國、菲律賓、澳大利亞、西班牙等國家開展深層次、多形式、全方位的科技合作,突破關鍵技術,積極吸收對方工程化、産業化的經驗,重點攻克礦山酸性廢水被動式生態處理、重金屬面源汙染生態攔截、農田養分高效利用、農田退水生態淨化與回用等一批關鍵技術與裝備,構建農業典型汙染物(重金屬、過量氮磷、農藥)防控與修複技術體系,形成集成示範,建立相關技術規範與標准。

 
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