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正规买球app排行:Laboratory of Environmental Microbiological Technology

Date: 2018-10-09 Source: Clicks:

 

The Laboratory of Environmental Microbiological Technology (LEMT, lemt.jiangnan.edu.cn) originated from the Environmental Biotechnology Laboratory of Wuxi Light Industry Institute that established in the 1980s. In 2016, the team changed its name as "Laboratory of Environmental Microbiology Technology". In the past five years, we acquired more than 20 research funding, including the National Water Pollution Control and Treatment Science and Technology Major Project, the National Natural Science Foundation, etc. More than 50 research papers have been published in major journals in environmental science and technology field, such as Environmental Science and Technology, Water Research, Bioresource Technology and so on. In addition, we has received over 16 national patents. The laboratory is focused on its research fields in  sludge anaerobic fermentation, organic solid waste and high-concentration organic wastewater treatment, the theory and technological innovation of disposal and resource utilization, etc. Professor Liu He, the group leader, currently serves reviewer of a dozen journals, including Environmental Journal, Journal of Environmental Science, Environmental Science and Technology, Water Research, etc.

 

Current Team members:

Head of research group: Liu He, Professor

Member: Zheng Zhiyong, Professor

        Fu Bo, Associate Professor

        Liu Hongbo, Associate Professor

        Zhang Yan, Assistant Professor

        Cui Minghua, Assistant Professor

        He Lu, administrative assistant

 

Main research areas:

1.      Technology of safe treatment and resource utilization to municipal sludge

2.      Theory and technology of refractory industrial wastewater treatment

3.      Environmental microbial technology and its application in controlling environmental pollution

 

Current  Research Projects:

1.      Integrated research and comprehensive demonstration of the urban sewage energy resource development and depth control technology of nitrogen and phosphorus (National Water Pollution Control and Treatment Science and Technology Major Project)

2.      Study on silicate mineral carbonates mediated coupling mechanisms and biological capture of CO2 in sludge anaerobic digestion process (National Natural Science Foundation of China)

3.      Temperature effect on the transcription and integron recombination of antibiotic genes in sludge anaerobic digestion (National Natural Science Foundation of China)

4.      Demonstration projects of integration between cyanobacteria bloom control and algae organic treatment technology in MeiLiang bay. (National Water Pollution Control and Treatment Science and Technology Major Project)


 

Selected Publications (2016-2017)

 

No.

Article title

Journal

Time

Authors

IF

1

Improved   volatile fatty acids anaerobic production from waste activated sludge by pH   regulation: Alkaline or neutral pH?

Waste   Management

2016,   284: 194-201

Huijun   Ma; Xingchun Chen; He Liu; Hongbo Liu; Bo   Fu

IF:   4.723

2

Improving   volatile fatty acids production by exploiting the residual substrates in   post-fermented sludge: protease catalysis of refractory protein.

Bioresource   Technology.

2016,   203: 124-131

Yin   Bo, Liu HongBo, Wang YuanYuan, Bai Jie, Liu He*, Fu Bo

IF:   5.808

3

Population   and diversity of ammonia oxidizing archaea and bacteria in a pollutants’   receiving area in Hangzhou Bay.

Applied   Microbiology and Biotechnology

2016,   100(13): 6035-6045

Yan   Zhang, Lujun Chen, Renhua Sun, Tianjiao Dai, Jinping Tian, Wei Zheng,   Donghui Wen*.

IF:3.340

4

Effect   of electrode position on azo dye removal in an up-flow hybrid anaerobic   digestion reactor with built-in bioelectrochemical system.

Scientific   Reports

2016,   6: 25223

Cui   Min-Hua,Cui Dan,Lee Juimh-Sool,Liang Bin,Wang Ai-Jie,Cheng Hao-Yi

IF:   4.122

5

Decolorization   enhancement by optimizing azo dye loading rate in an anaerobic reactor.

RSC   Adv

2016,   6 (55): 49995-50001.

MH   Cui,D Cui,,B Liang,T Sangeetha,AJ Wamg

IF:   2.936

6

Enhanced   acid production by different pretreatments in anaerobic fermentation of waste   activated sludge.

Chemical   Engineering Journal

2016,   284: 194–201

Liu   HongBo, Zu YePin, Yin Bo, Huijun Ma, Shuai Huang, Bo Fu, He Liu*

IF:   6.735

7

Towards   understanding the dewatering mechanism of sewage sludge improved by   bioleaching processing.

Separation   and Purification Technology

2016,   165:  53–59

Liu   He*, Yang Shuo., Shi JiaSheng, Xu XiaoYu, Liu HongBo, Fu Bo.

IF:   3.927

8

Azo   dye decolorization in an up-flow bioelectrochemical reactor with domestic   wastewater as a cost-effective yet highly efficient electron donor source.

Water   Research

2016,   105: 520-526

Cui   Min Hua, Cui Dan, Gao Lei,Wang Aijie,Cheng Haoyi

IF:   7.051

9

Temporal   and spatial changes of microbial community in an industrial effluent   receiving area in Hangzhou Bay.

Journal   of Environmental Sciences

2016,   44: 57-68

Yan   Zhang, Lujun Chen, Renhua Sun, Tianjiao Dai, Jinping Tian, Wei Zheng,   Donghui Wen*.

IF:   3.120

10

Analysis   of electrode microbial communities in an up-flow bioelectrochemical system   treating azo dye wastewater.

Electrochimica   Acta

2016,   220: 252-257

Cui   Min Hua, Cui Dan, Gao Lei,Cheng Haoyi,Wang Aijie

IF:   5.116

11

Improving   volatile fatty acid yield from sludge anaerobic fermentation through   self-forming dynamic membrane separation.

Bioresource   Technology

2016,   218 : 92–100

Liu   Hongbo, Yin Bo, Zhu Yanfang, Fu Bo, Liu He *.

IF:   5.808

12

Efficient   azo dye decolorization in a continuous stirred tank reactor (CSTR) with   built-in bioelectrochemical system.

Bioresource   Technology

2016,   218: 1307-11.

Cui   Min Hua, Cui Dan, Gao Lei,Cheng Haoyi,Wang Aijie

IF:   5.808

13

Modified   ADM1 for modeling free ammonia inhibition in anaerobic acidogenic   fermentation with high solid sludge.

Journal   of Environmental Science.

2017,   52: 58–65

Bai   Jie,Liu He*,Yin Bo,Ma Huijun,Chen   Xinchun

IF:   3.120

14

Evaluation   of anaerobic sludge volume for improving azo dye decolorization in a hybrid   anaerobic reactor with built-in bioelectrochemical system.

Chemosphere

2017,   169: 18-22

Cui   Min Hua, Cui Dan, Gao Lei,Wang Aijie,Cheng Haoyi

IF:4.427

15

Novel   insight into the relationship between organic substrate composition and   volatile fatty acids distribution in acidogenic co-fermentation.

Biotechnology   for biofuel

2017,   10(1):137

Ma   HuiJun, Liu He*, Zhang LiHui, Yang Meng, Fu Bo, Liu HongBo

IF:   5.497

16

Selective   acetate production with CO2 sequestration through acetogen-enriched sludge   inoculums in anaerobic digestion.

Biochemical   Engineering Journal.

2017,   121: 163–170

Liu   He*, Shia Jiasheng, Zhan Xinmin, Zhang Lijuana, Fu Bo, Liu Hongbo.

IF:   3.226

17

Stepwise   hydrolysis to improve carbon releasing efficiency from sludge.

Water   Research

2017,   119: 225-233

Hongbo   Liu, Yuanyuan Wang, Ling Wang, Tiantian Yu, Bo   Fu, He Liu.

IF:   7.051

18

Feasibility   of sludge deep-dewatering with sawdust conditioning for incineration disposal   without energy input.

Chemical   Engineering Journal

2017,   313:655-662

Liu   Hongbo*, Xiao Hang, Fu Bo,Liu He

IF:   6.735

19

Enhancement   of sludge dewaterability with filamentous fungi Talaromyces flavus S1 by   depletion of extracellular polymeric substances or mycelium entrapment.

Bioresource   Technology.

2017,   245: 977-983

Liu   He*, Shi Jiasheng, Xu Xiaoyu, Zhan Xinmin, Fu   Bo, Li Yifei

IF:   5.808

 

Organizer: Jiangnan University
Address: Jiangsu province Wuxi City Lake Road 1800 zip code: 214122

Technical support: information construction
Jiangnan University. All rights reserved

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