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Dinglong Li

“The Environmental Control and restoration Team”


Team Leader: Prof. Dinglong Li

    The team has 8 members, including 3 professors, 2 associate professors. 7 members have PhD degree. One has been selected as “Academic Leaderof Jiangsu Qinglan Project”.

   Since the establishment, the team has undertaken and completed 16 verticalprojects including Natural Science Foundation of China, international cooperation, Science and Technology Department of Jiangsu Province, Sinopec, Jiangsu Construction Department, Jiangsu Environmental Protection Department and other15horizontalprojects. The team has received funding of more than 32 million Yuan, has applied for (has been awarded) 122 patents, has published more than 290 scientific papers (including 32 SCI or EI papers), has published 6 books, and has trained 36 postgraduates.

Main Research Interests:

1Water pollution control and restoration

Based on the project of “Taihu lake eutrophication control and treatmenttechnology and engineering demonstration project- The optimization study of Pollution control and ecological control of Taihu lake-Gehu lake canal and its marshregion” which is the National water pollution control and management technology major projects, the projects which are supported by Jiangsu Environmental Protection Department and Changzhou Science & Technology Bureau and several horizontalprojects, the team focuses on the pollution control of agricultural, rural domestic wastewater and surface water, carries out the research of characteristics and treatment technologies of water pollution, and develops practical demonstration project of agriculture and rural surface water pollution control and remediation technologies.

Leader of this directionDinglong Li, Wenyi Zhang

2Rules, mechanism, abatement and recovery technology of heavy metal pollution in environment

The main research area of this group is the impact of soil heavy metal uptake, translocation and accumulation to crop products health in agricultural environment, as well as the translocation and accumulation rules of non-point source pollutants in farmland and their pollution load on water, supported by the National Natural Science Foundation of China " the differences of root oxidation and organic acid secretion characteristics and the influencing mechanism to cadmium and lead uptake on rice varieties”, the Ministry of Environmental Protection project “comprehensive cancer prevention in Huaihe river”, provincial ministry projects “physiological mechanism and pollution reduction strategies of cadmium and lead uptake distribution difference from rice varieties” “research on non-point source pollution monitoring and discharge coefficient calculation in Taihu river ” “research on farmland heavy metal migration, accumulation and Countermeasures along Huning highway ”.

Leader of this directionJianguo Liu, Dinglong Li

3Soil and groundwater pollution and health

Based on the project of “Environment risk and human health risk assessment of the pollution in the Huaihe river basin” supported by Ministry of Environmental Protection of China, “Research of risk assessment technology and system management of pesticide pollution of groundwater in the agricultural activity area”, “Organic phytoremediation of heavy metal pollution Based on the biological effectiveness” supported by Jiangsu Environmental Protection Department, and “Combined environmental behavior in water - sediment system and thyroid disrupting effects of tetrabromobisphenol and cadmium” supported by the Natural Science Foundation of China, The team cooperatedwith Chinese Research Academy of Environmental Sciences and Changzhou Academy of Environmental Science and carried out the research ofpollution characteristics, mechanism and relationship with human health of (organic) pollutants in river basin soil and groundwater.

Leader of this directionDinglong Li, Yan Yang

4Research and development of Environment-Friendly Material

Based on the the project of “”supported by the Natural Science Foundation of China, and “Effect of Inorganic ions on the adsorption and catalysis of organic contaminants” supported by the Natural Science Foundation of China, the team carried out the adsorption mechanism and application research of Environment-Friendly Material with the pollution control and restoration as the objective.

Leader of this directionJianhong Yang, Jianfeng Ma

5The research and development of desulfurization, denitrification, and dedusting technology

Based on the project of “Research of integration technology and equipment development for flue gas desulfurization, denitrification, and dedusting in liquid medium” supported by the Environmental Protection Department of Jiangsu Province, the team focused on the integration technology and equipment research and development with less investment, low operation cost, low energy consumption, simple process, which is suitable for middle and small coal-fired boiler flue gas desulfurization, denitrification, and dedusting.

Leader of this directionDinglong Li, Jianfeng Ma


Yang J H*, Cai J, Wu K, Li D L, Hu Y, Li G X, Du Y M. Preparation, characterization and anticoagulant activity in vitro of heparin-like 6-carboxylchitin derivative. International Journal of Biological Macromolecules, 2012, 50(4): 1158-1164.

Qi J*, Ma J F, Li D L, Dai J (2012). Enhancement effect of CTAB in dye wastewater treatment by bentonite, pp. 1028-1031.

Zhang X S, Chen B Y, Li D L*. QSRR Study on the Relationship between the Chromatographic Capacity Factor and Lipophilicity and Structure Parameters of Halogenated Thiophenols. Jiegou Huaxue, 2012, 31(6): 903-909.

Ma J F*, Yu J M, Cui B Y, Li D L, Dai J (2012). Treatment of dye wastewater by zero valent iron composited organobentonite, pp. 229-235.

Ma J F*, Yu J M, Cui B Y, Li D L, Dai J (2012). Adsorption and catalysis of Orange II from wastewater by inorganic-organic-bentonite, pp. 236-240.

Ma J F*, Qi J, Yao C, Cui B Y, Zhang T L, Li D L. A novel bentonite-based adsorbent for anionic pollutant removal from water. Chemical Engineering Journal, 2012, 200-202: 97-103.

Liu L*, Yang Y, Li D L (2012). Accelerated hexavalent chromium [Cr (VI)] reduction with electrogenerated hydrogen peroxide in microbial fuel cells, pp. 1525-1528.

Li D L*, Tian J S, Zhang H H, Zhang Y M, Gao Y X (2012). Kinetic study on phosphorus adsorption, phosphorus desorption, nitrification, and denitrification by using mineralized refuse, pp. 461-466.

Chen X M*, Ma J F, Li D L, Dai J (2012). Treatment of dye wastewater by adsorption with Bentonite-supported magnetic materials, pp. 487-491.

[11]Zhu C P*, Li D L, Liu H L, Yang G. Test and study the microstructure of polluted soil by acid and alkali in laboratory 2011:331-336.

[13]Zhao T T, Li Q Y, Lu L Q, Yan G, Li D L, Zhang W Y*. Analysis of water environmental pollution in plain river network region in small watershed of Caoqiao River. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2011, 27(SUPPL.2): 170-175.

[15]Ma J F*, Cui B Y, Li D L, Dai J, Yu J M. Development of model for prediction of treatment of organic wastewater by organobentonite in synthesis-sorption one-step process 2011.

[17]Ma J F*, Cui B Y, Chen X M, Dai J, Li D L. Carbonized and activated municipal organic waste for wastewater treatment. Fresenius Environmental Bulletin, 2011, 20(1): 63-68.

[19]Zhang W Y*, Yao L R, Ma J F, Li D L. Study on preparation and flocculation properties of inorganic polymer flocculant polyferric silicate sulfate (PFSS) 2010.

[21]Sun Y Q*, Ma J F, Li D L. Treatment of dye wastewater by bentonite adsorption and catalysis 2010.

[23]Ma J F*, Li D L, Zhang W Y, Lei C S. Simultaneous removal of phosphate and phenanthrene by alum aided with low amounts of surfactant-modified bentonite. Journal of Chemical Technology and Biotechnology, 2010, 85(2): 288-293.

[25]Li D L*, Ren X, Na J, Zhang W Y, Ma J F, Zhang Z J. Distribution and origin of Cr and Ni in the shallow groundwater along Kuihe River, China 2010.

[27]Li D L*, Na J, Zhang W Y, Ma J F, Ren X, Zhang Z J, Liu J G. Origins and characteristics of organic pollutants in the shallow groundwater along Kuihe River, China 2009.

[29]Chen H Q*, Wan L B, Li D L, Huang R R. Extraction technology of 4-nitropyridine with chloroform. Gao Xiao Hua Xue Gong Cheng Xue Bao/Journal of Chemical Engineering of Chinese Universities, 2008, 22(4): 634-639.

[31]Wan Y S*, Zhang P, Li D L, Ma J F. Analysis on Selection of Domestic Sewage Treatment Method in Rural Area. Agricultural Science& Technology, 2011, 12(4): 597-599.

[33]Chen B Y, Zhang X S, Li D L*. Theoretical Study on Thermodynamic Properties and Hydrophilicity of Polychorinated Phenothiazines (PCPTZs). Jiegou Huaxue, 2011, 30(11): 1575-1584.

[35]Wang, M X*,Shi Y, Xia X F,Li D L, Chen Q. Life-cycle energy efficiency and environmental impacts of bioethanol production from sweet potato. Bioresource Technology,2013,133,285-292.

[37]Yu H B,Xi B D*,Ma W C,Li D L,He X S. Fluorescence spectroscopic properties of dissolved fulvic acids from salined flavo-aquic soils around Wuliangsuhai in Hetao Irrigation District, China. Soil Science Society of America Journal, 2011,75(4): 1385-1393.

[38]Ma J F*, Zou J, Li L Y, Yao C, Zhang T L, Li D L. Synthesis and characterization of Ag3PO4 immobilized in bentonite for the sunlight-driven degradation of Orange II.2013,(134-135): 1-6.

[39]Yang J H*, Cai J, Hu Y, Li D L, Du Y M. Preparation, characterization and antimicrobial activity of 6-amino-6-deoxychitosan.202-209.

[40]Yang J H*, Luo K, Li D L, Yu S S, Cai J, Chen L Y, Du Y M. Preparation, characterization and in vitro anticoagulant activity of highly sulfated chitosan. International Journal of Biological Macromolecules,2013,52,25-31.