盛彥清，男，研究員，博導。2000年畢業于寧夏大學化學系，隨后進入深圳富士康企業集團擔任化學環保工程師。2003年考入中科院廣州地球化學研究所碩博連讀，2007年獲環境科學博士學位，同年進入中科院煙臺海岸帶研究所工作至今，長期從事海岸帶水體與沉積物污染防治相關技術研究與工程應用。2011年5月到2012年6月在英國利茲大學（University of Leeds）進行訪問研究，2016年3月至2016年5月在澳大利亞南十字星大學（Southern Cross University）進行合作研究。多次承擔國家自然科學基金、中科院先導專項、山東省重點基金等各類項目，同時承擔地方政府和企業委托技術服務類項目多項。發表研究論文80余篇，其中50余篇被SCI收錄，獲授權發明專利16件（轉讓或許可7件），出版專著1部。

科研獎勵（排名首位）：

(1) 一種濱海黑臭河道的水質原位修復系統, 山東省人民政府, 山東省專利獎, 一等獎, 2018；

(2) 海岸帶沉積物污染過程、原位修復技術和工程示范, 國家海洋局、中國海洋學會、中國太平洋學會、中國海洋湖沼學會, 海洋科學技術獎, 一等獎, 2018；

(3) 海岸帶重污染水體與沉積物水/泥共治關鍵技術與工程應用, 中國產學研合作促進會, 中國產學研合作創新成果獎, 一等獎, 2019；

(4) 海岸帶重污染水體與沉積物原位修復關鍵技術及工程示范, 山東省人民政府, 山東省科學技術進步獎, 二等獎, 2019；

(5) 濱海黑臭水體與底泥除黑除臭關鍵技術及其應用, 中國環境保護產業協會, 環境技術進步獎, 二等獎, 2020。

榮譽稱號：

享受國務院特殊津貼專家，2016

中央國家機關最受歡迎的法制人物（環保），2016

中國科學院關鍵技術人才，2016

“閩江學者”講座教授，2017

山東省優秀共產黨員（建黨95周年），2016

山東省優秀工程師，2020

煙臺市人大立法專家顧問，2015

煙臺市十大環保人物，2012

煙臺市最美科技工作者，2021

學術兼職：

中國環境科學學會沉積物環境專業委員會，副主任委員，2014

中國海洋湖沼學會海岸帶可持續發展分會，副理事長兼秘書長，2018

中國生態學會污染生態學專業委員會，委員，2017

中國太平洋學會海洋標準化專業委員會，委員，2020

招生方向：

硫等生源要素的環境地球化學過程；水體與沉積物污染防治技術；水質修復及水處理工程。

聯系方式：聯系電話: 0535-2109265；Email: yqsheng@yic.ac.cn

硫等生源要素的環境地球化學過程

       基于濱海水體高鹽度脅迫、高污染匯集、高強度擾動等水質水文特征，研究流域-河口-近海體系水環境質量演變過程與機制，闡明硫在水體黑臭演變過程中的關鍵驅動機制，揭示硫與氮磷及痕量金屬的耦合作用及其環境行為；研究河口海岸帶水污染負荷對微藻及微生物群落結構變化的影響機制，運用生物學手段評估環境污染狀況及生態健康水平。

(1) Ming Jiang, Yanqing Sheng*, Guoqiang Zhao & Wenjing Wang. Coupling mechanisms of S-Fe-P in surface sediments under the stresses of high salinity and heavy metals in coastal rivers. Journal of Soils and Sediments, 2021, 1-12.

(2) Wenjing Wang, Yanqing Sheng*, Ming Jiang. Physiological and metabolic responses of Microcystis aeruginosa to a salinity gradient. Environmental Science and Pollution Research. doi:10.1007/s11356-021-16590-8.

(3) Changyu Li, Yanqing Sheng*, Hengduo Xu. Phosphorus recovery from sludge by pH enhanced anaerobic fermentation and vivianite crystallization. Journal of Environmental Chemical Engineering, 2021, 9:104663.

(4) Wenjing Wang, Ming Jiang, Yanqing Sheng*. Glyphosate accelerates the proliferation of Microcystis aeruginosa, a dominant species in cyanobacterial blooms. Environmental Toxicology and Chemistry, 2021, 40(2):342-351.

(5) Wenjing Wang, Yanqing Sheng*. Ampicillin used in aseptic processing influences the production of pigments and fatty acids in Chlorella sorokiniana. World Journal of Microbiology and Biotechnology, 2021, 37(1):3.

(6) Ming Jiang, Yanqing Sheng, Qunqun Liu, Wenjing Wang, Xiaozhu Liu. Conversion mechanisms between organic sulfur and inorganic sulfur in surface sediments in coastal rivers. Science of the Total Environment, 2020, 752:141829.

(7) Wenjing Wang, Yanqing Sheng*. Gene expression concerning fatty acid and amino acid metabolism in Chlorella vulgaris cultured with antibiotics. Applied Microbiology and Biotechnology, 2020, 104(18):8025-8036.

(8) Guoqiang Zhao, Yanqing Sheng*, Wenjing Wang, Qunqun Liu, Ming Jiang, Zhaoran Li. Effects of suspended particular matters, excess PO₄^3-, and salinity on phosphorus speciation in coastal river sediments. Environmental Science and Pollution Research, 2020, 27: 27697–27707.

(9) Qunqun Liu, Jiangmin Song, Tao Ma, Ming Jiang, Guangxiang Ma, Yanqing Sheng*. Effects of drying pretreatments on the analysis of the mercury fraction in sediments. Environmental Monitoring and Assessment, 2019, 191: 607. 

(10) Guoqiang Zhao, Yanqing Sheng*, Ming Jiang, Xiuli Yin. Redox-dependent phosphorus burial and regeneration in an offshore sulfidic sediment core in North Yellow Sea, China. Marine Pollution Bulletin, 2019, 149: 110582.

(11) Guoqiang Zhao, Yanqing Sheng*, Ming Jiang, Haoyuan Zhou, Huichao Zhang. The biogeochemical characteristics of phosphorus in coastal sediments under high salinity and dredging conditions. Chemosphere, 2019, 215: 681-692.

(12) Guoqiang Zhao, Yanqing Sheng*, Changyu Li, Qunqun Liu. Effects of macro metals on alkaline phosphatase activity under conditions of sulfide accumulation. Science of the Total Environment, 2019, 697, 134151.

(13) Guoqiang Zhao, Yanqing Sheng*, Chuanyuan Wang, Jian Yang, Qiaoning Wang, Lingxin Chen. In situ microbial remediation of crude oil-soaked marine sediments using zeolite carrier with a polymer coating. Marine Pollution Bulletin, 2018, 129: 172-178.

(14) Guoqiang Zhao, Yanqing Sheng*, Jing Wang, Zhaoran Li, Jian Yang. Optimized digestion methods: organic phosphorus sequential extraction, total phosphorus, and nitrogen simultaneous determination in sediments. Journal of Soils and Sediments, 2018, 18: 2072-2080.

(15) Qiyao Sun, Yanqing Sheng*, Jian Yang, Marcello Di Bonito, Robert J.G. Mortimer. Dynamic characteristics of sulfur, iron and phosphorus in coastal polluted sediments, north China. Environmental Pollution, 2016, 219: 588-595.

(16) Zhaoran Li, Yanqing Sheng*, Jian Yang, Edward D. Burton. Phosphorus release from coastal sediments: Impacts of the oxidation-reduction potential and sulfide. Marine Pollution Bulletin, 2016, 113(1-2): 176-181.

(17) Zhaoran Li, Yanqing Sheng*, Wenjing Shi, Qiyao Sun, Robert J.G. Mortimer. Influence of salinity on COD measurements in coastal water management. Desalination and Water Treatment, 2016, 57(39): 18338-18345.

(18)李兆冉,盛彥清*.無氯型環保融雪劑對種子發芽及植株生長的影響[J].環境科學與技術,2021,44(03):150-156.

(19)柳肖竹,劉群群,王文靜,盛彥清*.水力擾動對河口沉積物中重金屬再釋放的影響[J].生態與農村環境學報,2020,36(11):1460-1467.

(20)王婧,孫瑞川,楊劍,宋江敏,盛彥清*.不同前處理方法對沉積物中鎘賦存形態分析的影響[J].環境工程,2018,36(12):93-97+129.

(21)王婧,孫瑞川,盛彥清*,趙國強,楊劍.礦區河流沉積物中砷和鎘浸提及浸提液的處理[J].環境科學與技術,2018,41(11):72-80.

(22)姜明,趙國強,李兆冉,盛彥清*.煙臺夾河口外柱狀沉積物還原性無機硫、活性鐵的變化特征及其相互關系[J].海洋科學,2018,42(08):90-97.

(23)孫韶玲,盛彥清*,孫瑞川,楊劍,鄭猛.河流水體黑臭演化過程及惡臭硫化物的產生機制[J].環境科學與技術,2018,41(03):15-22.

水體與沉積物污染防治技術

根據濱海水體黑臭演化過程與機制，研發濱海河道潮汐防控、水質修復、原位清淤、硫化物削減、活性磷固定、微生物促生、重金屬鈍化等關鍵技術單元及其集成；研究污/廢水資源化利用相關技術，研發底泥及污泥中磷等資源回收技術；研發利用微藻處理含硫廢水的相關技術；創建消化固定、重金屬鈍化、原位覆蓋等底質改良技術體系。

 (1) Qunqun Liu, Yanqing Sheng*, Wenjing Wang, Xiaozhu Liu. Efficacy and microbial responses of biochar-nanoscale zero-valent during in-situ remediation of Cd-contaminated sediment. Journal of Cleaner Production, 2021, 287:125076.

(2) Qunqun Liu, Yanqing Sheng*, Xiaozhu Liu. Efficacy of in situ active capping Cd highly contaminated sediments with nano-Fe₂O₃ modified biochar. Environmental Pollution, 2021, 290:118134.

(3) Changyu Li, Yanqing Sheng*. Organic matter affects phosphorus recovery during vivianite crystallization. Water Science and Technology, 2021, 83: 2038–2050.

(4) Changyu Li, Yanqing Sheng*. Aqueous Phosphate Removal and Electricity Production Using an Iron–Air Fuel Cell. Journal of Environmental Engineering, 2020, 146: 04020042.

(5) Qunqun Liu, Yanqing Sheng*, Wenjing Wang, Changyu Li, Guoqiang Zhao. Remediation and its biological responses of Cd contaminated sediments using biochar and minerals with nanoscale zero-valent iron loading. Science of the Total Environment, 2020, 713: 136650.

(6) Guoqiang Zhao, Yanqing Sheng, Changyu Li, Qunqun Liu, Nana Hu. Restraint of enzymolysis and photolysis of organic phosphorus and pyrophosphate using synthetic zeolite with humic acid and lanthanum, Chemical Engineering Journal, 2020, 386: 123791.

(7) Qunqun Liu, Yanqing Sheng*, Ming Jiang, Guoqiang Zhao, Changyu Li. Attempt of basin-scale sediment quality standard establishment for heavy metals in coastal rivers. Chemosphere, 2020, 245: 125596. 

(8) Changyu Li, Yanqing Sheng*, Xiangyu Sun. Simultaneous Removal of SO₂ and NO_X by a Combination of Red Mud and Coal Mine Drainage. Environmental Engineering Science, 2019, 36: 444-452.

(9) Tao Ma, Yanqing Sheng, Yingjie Meng, Jianzhang Sun. Multistage remediation of heavy metal contaminated river sediments in a mining region based on particle size. Chemosphere, 2019, 225: 83-92.

(10) Wenjing Wang, Yanqing Sheng*. Pseudomonas sp. strain WJ04 enhances current generation of Synechocystis sp. PCC6803 in photomicrobial fuel cells. Algal Research, 2019, 40:101490.

(11) Haoyuan Zhou#, Yanqing Sheng#, Xuefei Zhao, Martin Gross, Zhiyou Wen. Treatment of acidic sulfate-containing wastewater using revolving algae biofilm reactors: Sulfur removal performance and microbial community characterization. Bioresource Technology, 2018, 264: 24-34.

(12)周浩媛,陳軍,盛彥清*.微藻技術在污水處理中的應用與展望[J].環境科學與技術,2020,43(11):160-171.

(13)王華光,王文靜,盛彥清*.污水處理工藝對微藻及藻際細菌群落的影響[J].中國環境科學,2018,38(10):3761-3766.

(14)孫詳彧,盛彥清*,張培青.赤泥與礦井廢水在煙氣脫硝中的應用[J].環境工程,2017,35(01):93-97.

(15)孫韶玲,盛彥清*,孫啟耀,鄭猛,李兆冉,孫詳彧.活性炭吸附法處理污泥熱干化蒸汽的研究[J].環境科學與技術,2017,40(01):118-122.

(16)晉春虹,李兆冉,盛彥清*.環渤海河流COD入海通量及其對渤海海域COD總量的貢獻[J].中國環境科學,2016,36(06):1835-1842.

水質修復及水處理工程

創建濱海河道及入海灘涂水質修復技術體系并開展工程化應用；研發重污染底泥原位與異位處理處置技術并開展應用示范，實現底泥處置的減量化、資源化和無害化；開展“泥-水共治”技術體系工程化應用；承接各類企事業單位委托的水環境綜合整治、特殊廢水處理、污泥資源化利用等技術服務類工程項目。

(1) 盛彥清, 李兆冉. 海岸帶污染水體水質修復理論及工程應用, 科學出版社, 368千字, 2018.

(2) Hengduo Xu, Yanqing Sheng*. New insights into the degradation of chloramphenicol and fluoroquinolone antibiotics by peroxymonosulfate activated with FeS: Performance and mechanism. Chemical Engineering Journal, 2021, 414: 128823.

(3) Changyu Li, Yanqing Sheng*, Hengduo Xu. Phosphorus recovery from sludge by pH enhanced anaerobic fermentation and vivianite crystallization. Journal of Environmental Chemical Engineering, 2021, 9: 104663.

(4) Qi Tang, Yanqing Sheng*, Changyu Li, Wenjing Wang, Xiaozhu Liu. Simultaneous removal of nitrate and sulfate using an up-flow three-dimensional biofilm electrode reactor: Performance and microbial response, Bioresource Technology, 2020, 318:124096.

(5) Qi Tang, Meng Zheng, Yanqing Sheng*, Robert Mortimer. Simultaneous nitrification and denitrification using a novel up-flow bio-electrochemical reactor. Desalination and Water Treatment, 2019, 158:97-104.

(6) 孫瑞川，唐琪，盛彥清*. 硫酸鹽負荷下生物電化學系統脫氮性能的研究[J].環境工程,2021,刊印中.

(7) 胡娜娜，盛彥清*，唐琪，李長玉. 海岸帶水體氮磷的準確測定與方法選擇[J].海洋科學進展,2021,刊印中.

(8) 馬濤，宋江敏，劉群群，盛彥清*.不同方式處置的疏浚沉積物重金屬生態風險評價對比[J].環境工程,2021,39(02):141-146+152.