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清华大学环境学院导师教师师资介绍简介-梁鹏

本站小编 Free考研考试/2020-04-14


姓  名: 梁 鹏
所在单位: 水环境保护教研所
职  称: 高级
邮寄地址: 清华大学环境学院
办公电话:
电子邮件: liangpeng@tsinghua.edu.cn


教育背景1995.09~2000.07,清华大学环境科学与工程系环境工程专业,学士
2000.09~2005.01,清华大学环境科学与工程系环境工程专业,博士
工作履历2005.01~2006.12:清华大学环境科学与工程系,博士后,助理研究员
2006.12~2010.01:清华大学环境科学与工程系,助理研究员
2012.01~2013.01:哈佛大学有机体与生物进化学系,MIT机械工程系,访问学者
2010.01~2019.06:清华大学环境学院,副教授
2019.06~至今: 清华大学环境学院,教授
教 学 :
**-0 水处理工程课程设计
**-0生产实习
** 水资源与水环境的可持续管理
S** 实验室科研探究(水污染控制生物技术与原理、污水资源化技术前沿)
**-90 环境保护与可持续发展


学术兼职中国环境科学学会会员,日本水环境学会会员,国际微生物电化学技术协会会员,国际水协会员,国际水协会员,电力化学专业委员会委员
国际电去离子(电吸附)工作组主席


研究领域1. 污水处理原理与技术:深度脱氮除磷技术,高效生物反应器,脱盐,污泥减量

2. 微生物电化学技术: 微生物燃料电池,微生物脱盐电池,生物传感器
研究概况基于再生水的“高标准、高品质”水景观构建与水生态维系技术研究和工程示范,重大水专项,2017-2020,负责
流动电极型电吸附装置中的电荷传递调控及应用,自然基金(面上),2018-2021,负责
水污染控制,基金委优秀青年基金项目,2015-2017,负责
暂态对电极生物膜产电的调控及作用机制研究,自然基金(面上),2013-2016,负责
微生物燃料电池产电与污水净化耦合关键技术,863计划重点课题,2011-2015,负责
基于生物电化学系统暂态运行脱盐工艺及其能量转换促进机制,自主科研(清华),2013-2015,负责
调控阴极生物膜促进微生物燃料产电的机制研究,自然基金(面上),2010-2012,负责
利用碳纳米管粉体提高微生物燃料电池产电的研究,教育部博士点基金,2009-2010,负责
奖励与荣誉教育部自然科学一等奖(排名第二),2019年
国家科技进步二等奖(排名第五),2018年
教育部科技进步一等奖(排名第五),2017年
清华大学先进工作者,2014年
清华大学青年教师基本功大赛二等奖,2014年
领跑者5000——中国精品科技期刊顶尖学术论文,2013年
清华大学教学成果特等奖,2010年
国家级精品课程,2009年,2010年
Environmental Science &Technology年度最佳论文,2009年
中国环境科学学会青年科技奖,2008年
日本水环境学会年会优秀报告奖,2008年
学术成果一、英文文章:
1.Jiang, Y., May, H. D., Lu, L., Liang, P*., Huang, X., Ren, Z. J*. (2019). Carbon dioxide and organic waste valorization by microbial electrosynthesis and electro-fermentation. Water research, 149,42-45
2.Li, B*., Qiu, Y*., Li, J., Liang, P., Huang, X. (2019). Removal of antibiotic resistance genes in four full-scale membrane bioreactors. Science of The Total Environment, 653, 112-119.
3.Zhang, M., Wang, Y.*, Liang, P., Zhao, X., Liang, M., Zhou, B. (2019). Combined photoelectrocatalytic microbial fuel cell (PEC-MFC) degradation of refractory organic pollutants and in-situ electricity utilization. Chemosphere, 214, 669-678.
4.Liu P, Zhang C, Liang P*., Jiang Y, Zhang X, Huang X. (2019) Enhancing extracellular electron transfer efficiency and bioelectricity production by vapor polymerization Poly (3, 4-ethylenedioxythiophene)/MnO2 hybrid anode. Bioelectrochemistry, 126,72-78
5.Dong, H., Liu, X., Xu, T., Wang, Q., Chen, X., Chen, S., Zhang, H., Liang, P., Huang, X., Zhang, X. Y.* (2018). Hydrogen peroxide generation in microbial fuel cells using graphene-based air-cathodes. Bioresource Technology, 247, 684-689.
6.Gao, Y., Fang, Z., Liang, P., Huang, X*. (2018). Direct concentration of municipal sewage by forward osmosis and membrane fouling behavior. Bioresource Technology, 247, 730-735.
7.Gao, Y., Sun, D., Wang, H., Lu, L., Ma, H., Wang, L., Ren, Z. J., Liang, P., Zhang, X., Chen, X*., Huang, X*. (2018). Urine-powered synergy of nutrient recovery and urine purification in a microbial electrochemical system. Environmental Science: Water Research & Technology, 4(10), 1427-1438.
8.Xue, W., Xiao, K*., Liang, P., Huang, X*. (2018). Roles of membrane and organic fouling layers on the removal of endocrine disrupting chemicals in microfiltration. Journal of Environmental Sciences.72, 176-184.
9.Wu, Q., Yan, X., Xiao, K., Guan, J., Li, T., Liang, P., Huang, X*. (2018). Optimization of membrane unit location in a full-scale membrane bioreactor using computational fluid dynamics. Bioresource technology, 249, 402-409.
10.Zuo, K., Chen, M., Liu, F., Xiao, K., Zuo, J., Cao, X., Zhang, X., Liang, P*., Huang, X*. (2018). Coupling microfiltration membrane with biocathode microbial desalination cell enhances advanced purification and long-term stability for treatment of domestic wastewater. Journal of Membrane Science, 547, 34-42.
11.Wu, Q., Yan, X., Xia, X., Zhang, C., Xue, T., Yu, K., Liang, P., Huang, X*. (2018). Analysis of the mixing performance of a full-scale membrane bioreactor for municipal wastewater treatment. Bioresource technology, 250, 932-935.
12.Qi, X., Ren, Y., Liang, P., Wang, X*. (2018). New insights in photosynthetic microbial fuel cell using anoxygenic phototrophic bacteria. Bioresource technology, 258, 310-317.
13.Xu, T., Wang, Q., Wu, S., Fu, B., Liang, P., Huang, X., Zhang, X*. (2018). A novel filtration composite anode configuration of microbial fuel cell for efficient wastewater treatment and enhanced power generation. Journal of Cleaner Production, 178, 305-313.
14.Zhang, H., Liang, P*., Bian, Y., Sun, X., Ma, J., Jiang, Y., Huang, X. (2018). Enhancement of salt removal in capacitive deionization cell through periodically alternated oxidation of electrodes. Separation and Purification Technology, 194, 451-456.
15.Liu, P., Liang, P*., Jiang, Y., Hao, W., Miao, B., Wang, D., Huang, X. (2018). Stimulated electron transfer inside electroactive biofilm by magnetite for increased performance microbial fuel cell. Applied Energy, 216, 382-388.
16.Sun, D., Gao, Y., Hou, D., Zuo, K., Chen, X.*, Liang, P., Zhang, X., Ren, Z. J., Huang, X*. (2018). Energy-neutral sustainable nutrient recovery incorporated with the wastewater purification process in an enlarged microbial nutrient recovery cell. Journal of Power Sources, 384, 160-164.
17.Jiang, Y., Lu, L., Wang, H., Shen, R., Ge, Z., Hou, D., Chen, X., Liang, P.*, Ren, Z. J*. (2018). Electrochemical control of redox potential arrests methanogenesis and regulates products in mixed culture electro-fermentation. ACS Sustainable Chemistry & Engineering, 6 (7), 8650-8658
18.Xia, X., Li, M., Liu, T., Liang P*., Huang, X*. (2018). Facile synthesis of cobalt oxide as electrocatalyst for the oxygen reduction reaction in microbial fuel cells. Chemical Engineering Journal, 342, 395-400.
19.Jiang, Y., Liang P*., Huang, X., Ren, Z. J*. (2018). A novel microbial fuel cell sensor with a gas diffusion biocathode sensing element for water and air quality monitoring. Chemosphere, 203, 21-25.
20.Wang, D., Liang P*., Jiang, Y., Liu, P., Miao, B., Hao, W., Huang, X. (2018). Open external circuit for microbial fuel cell sensor to monitor the nitrate in aquatic environment. Biosensors and Bioelectronics, 111, 97-101.
21.Qiu, Y., Zhang, C., Li, B., Li, J., Zhang, X., Liu, Y., Liang P*., Huang, X. (2018). Optimal Surface Aeration Control in Full-Scale Oxidation Ditches through Energy Consumption Analysis. Water, 10(7), 945.
22.Liang, P., Duan, R., Jiang, Y*., Zhang, X., Qiu, Y*., Huang, X*. (2018). One-year operation of 1000-L modularized microbial fuel cell for municipal wastewater treatment. Water research, 141, 1-8.
23.Qiu, Y., Zhang, J., Li, B*., Wen, X., Liang, P*., Huang, X. (2018). A novel microfluidic system enables visualization and analysis of antibiotic resistance gene transfer to activated sludge bacteria in biofilm. Science of The Total Environment, 642, 582-590.
24.Xiao, K., Shen, Y*., Liang, S., Tan, J., Wang, X., Liang, P., Huang, X*. (2018). Characteristic Regions of the Fluorescence Excitation–Emission Matrix (EEM) To Identify Hydrophobic/Hydrophilic Contents of Organic Matter in Membrane Bioreactors. Environmental science & technology, 52(19), 11251-11258.
25.Zhang, J., Bligh, M. W., Liang, P., Waite, T. D*., Huang, X*. (2018). Phosphorus removal by in situ generated Fe (II): Efficacy, kinetics and mechanism. Water research, 136, 120-130.
26.Liu, F., Wang, L., Zuo, K., Luo, S., Zhang, X., Liang, P., Huang, X*. (2018). A novel operational strategy to enhance wastewater treatment with dual-anode assembled microbial desalination cell. Bioelectrochemistry,126, 99-104.
27.Jiang, Y., Yang, X. F., Liang, P*., Liu, P. P., Huang, X. (2018) Microbial fuel cell sensors for water quality early warning systems: fundamentals, signal resolution, optimization and future challenges. Renewable & Sustainable Energy Reviews, 81, 292-305.
28.Chen, X., Zhou, H., Zuo, K.C., Zhou, Y., Wang, Q. Y., Sun, D. Y., Gao, Y. F., Liang, P., Zhang, X. Y., Ren, Z. Y. J., Huang, X*. (2017) Self-sustaining advanced wastewater purification and simultaneous in situ, nutrient recovery in a novel bioelectrochemical system. Chemical Engineering Journal, 330, 692-697
29.Liang, P*., Sun, X., Bian, Y., Zhang, H., Yang, X., Jiang, Y., Liu, P., Huang, X. (2017) Optimized desalination performance of high voltage flow-electrode capacitive deionization by adding carbon black in flow-electrode. Desalination, 420, 63-69.
30.Jiang, Y., Liang, P*., Liu, P., Wang, D., Miao, B., Huang, X. (2017) A novel microbial fuel cell sensor with biocathode sensing element. Biosensors & Bioelectronics, 94, 344-350.
31.Ren, S.T., Li, M.C., Sun J. Y., Bian, Y. H., Zuo, K. C., Zhang X. Y., Liang P*., Huang, X. (2017). A novel electrochemical reactor for nitrogen and phosphorus recovery from domestic wastewater. Frontiers of Environmental Science & Engineering, 11 (4), 17.
32.Chen, X., Gao, Y. F., Hou, D. X., Ma, H., Lu, L., Sun, D. Y., Zhang, X. Y., Liang, P., Huang, X*., Ren, Z. Y. J. (2017) The Microbial Electrochemical Current Accelerates Urea Hydrolysis for Recovery of Nutrients from Source-Separated Urine. Environmental Science & Technology Letter, 4 (7), 305–310.
33.Xu, Y., Zhu, N. W., Sun, J. Y., Liang, P., Xiao, K., Huang, X*. (2017) Evaluating oxygen mass transfer parameters for large-scale engineering application of membrane bioreactors. Process Biochemistry.
34.Wang, Z. J., Gong, H*., Zhang, Y., Liang, P., Wang, K. J., (2017) Nitrogen recovery from low-strength wastewater by combined membrane capacitive deionization (MCDI) and ion exchange (IE) process. Chemical Engineering Journal, 316:1-6.
35.Jiang, Y., Liang, P*., Liu, P., Yan, X. X., Bian, Y. H., Huang, X. (2017) A cathode-shared microbial fuel cell sensor array for water alert system. International Journal of Hydrogen Energy, 42(7), 4342-4348.
36.Jiang, Y., Liang, P*., Liu, P. P., Miao, B., Bian, Y. H., Zhang, H. L., Huang, X. (2017) Enhancement of the sensitivity of microbial fuel cell sensor by transient-state operation. Environmental Science Water Research & Technology, 3: 472-479.
37.Liang, P*., Zhang, C.Y., Jiang, Y., Bian, Y. H., Zhang, H. L., Sun, X. L., Yang, X. F., Zhang, X. Y., Huang, X. (2017) Performance enhancement of microbial fuel cell by applying transient-state regulation. Applied Energy, 185, 582-588.
38.Sun, Y., Shen, Y. X., Liang, P., Zhou, J., Yang, Y., Huang, X*. (2016) Multiple antibiotic resistance genes distribution in ten large-scale membrane bioreactors for municipal wastewater treatment. Bioresource Technology, 222, 100.
39.Zhang, X. Y*., He, W. H., Zhang, R. F., Wang, Q. Y., Liang, P., Huang, X., Logan, B. E., Fellinger, T. P. (2016) High-performance carbon aerogel air cathodes for microbial fuel cells. Chemsuschem, 9(19), 2788-2795.
40.Chen X., Liang P., Zhang X. Y., Huang X*. (2016) Bioelectrochemical systems-driven directional ion transport enables low-energy water desalination, pollutant removal, and resource recovery. Bioresource Technology. 215: 274-284.
41.Zuo, K. C., Liu, H., Zhang, Q. Y., Liang, P., Vecitis, C. D., Huang, X*. (2016) Enhanced performance of nitrogen-doped carbon nanotube membrane-based filtration cathode microbial fuel cell. Electrochimica Acta, 211, 199-206.
42.Sun, Y. M., Fang, Y. Y., Liang, P., Huang, X*. (2016) Effects of online chemical cleaning on removing biofouling and resilient microbes in a pilot membrane bioreactor. International Biodeterioration & Biodegradation, 112, 119-127.
43.Chen, X., Sun, H. T., Liang, P., Zhang, X.Y., Huang, X*. (2016) Optimization of membrane stack configuration in enlarged microbial desalination cells for efficient water desalination. Journal of Power Sources, 324, 79-85.
44.Jiang Y., Liang P.*, Liu, P. P., Bian, Y. H., Mao, B., Sun, X. L.,Zhang, H. L., Huang, X. (2016) Enhancing signal output and avoiding bod/toxicity combined shock interference by operating a microbial fuel cell sensor with an optimized background concentration of organic matter. International Journal of Molecular Sciences, 17(9), 1392.
45.Sun J. Y., Liang P., Yan X. X., Zuo K. C., Xiao K., Xia J. L., Qiu Y., Wu Q., Wu S. J., Huang X*., Qi, M., Wen, X. H. (2016) Reducing aeration energy consumption in a large-scale membrane bioreactor: Process simulation and engineering application. Water Research. 93:205-213.
46.Wang, S. H., Wu, Q., Lei, T., Liang, P*., Huang, X. (2016) Enrichment of denitrifying methanotrophic bacteria from taihu sediments by a membrane biofilm bioreactor at ambient temperature. Environmental Science & Pollution Research, 23(6), 5627-5634.
47.Ailijiang, N., Chang, J. L., Liang, P., Li, P., Wu, Q., Zhang, X. Y., Huang, X*. (2016) Electrical stimulation on biodegradation of phenol and responses of microbial communities in conductive carriers supported biofilms of the bioelectrochemical reactor. Bioresource Technology, 201, 1-7.
48.Zhang, H. L., Liang, P*., Bian, Y. H., Jiang, Y., Sun, X. L., Zhang, C. Y., Huang, X., Fei, W. (2016) Moderately oxidized graphene–carbon nanotubes hybrid for high performance capacitive deionization. Rsc Advances, 6(64), 58907-58915.
49.Zuo, K. C., Liu, F. B., Ren, S. T., Zhang, X. Y., Liang, P*., Huang, X. (2016). A novel multi-stage microbial desalination cell for simultaneous desalination and enhanced organics and nitrogen removal from domestic wastewater. Environmental Science Water Research & Technology, 2(5) 832-837.
50.Ailijiang N., Chang J. L., Wu Q., Li P., Liang P., Zhang X.Y., Huang X.(2016) Phenol degradation by suspended biomass in aerobic/anaerobic electrochemical reactor. Water Air Soil Pollut. 227: 233-243.
51.Wu S. J., Li H., Zhou X.C., Liang P.*, Zhang X. Y., Jiang Y., Huang X.(2016) A novel pilot-scale stacked microbial fuel cell for efficient electricity generation and wastewater treatment. Water Research. 98:396-403.
52.Zuo K. C., Wang Z., Chen X., Zhang X. Y., Zuo J. L., Liang P.*, Huang X. (2016) Self-driven desalination and advanced treatment of wastewater in a modularized filtration air cathode microbial desalination cell. Environmental Science & Technology. 50(13)7254-7262.
53.Jiang Y., Liang P.*, Zhang C. Y., Bian Y. H., Sun X. L., Zhang H. L., Yang X. F., Zhao F., Huang X. (2016) Periodic polarity reversal for stabilizing the pH in two-chamber microbial electrolysis cells. Applied Energy. 165: 670-675.
54.Bian Y. H., Liang P.*, Yang X. F., Jiang Y., Zhang C. Y., Huang X. (2016) Using activated carbon fiber separators to enhance the desalination rate of membrane capacitive deionization. Desalination. 381: 95-99.
55.Xiao K., Sun J.Y., Shen Y. X., Liang S., Liang P., Wang X. M., Huang X. (2016) Fluorescence properties of dissolved organic matter as a function of hydrophobicity and molecular weight: case studies from two membrane bioreactors and an oxidation ditch. RSC Advances. 6: 24050-24059.
56.Zhang C. Y., Liang P.*, Yang X. F., Jiang Y., Biang Y. H., Chen C. M., Zhang X. Y., Huang X. (2016) Binder-free graphene and manganese oxide coated carbon felt anode for high-performance microbial fuel cell. Biosensors and Bioelectronics. 81:32-38.
57.Wu Q., Chang J. L., Yan X. X., Ailijiang N., Fan Q. X., Wang S.H., Liang P.*, Zhang X. Y., Huang X. (2016) Electrical stimulation enhanced denitrification of nitrite-dependent anaerobic methane-oxidizing bacteria. Biochemical Engineering Journal. 106: 125-128.
58.Zhang X. Y., He W. H., Yang W. L., Liu J., Wang Q. Y., Liang P., Huang X., Logan. B. E. (2016) Diffusion layer characteristics for increasing the performance of activated carbon air cathodes in microbial fuel cells. Environmental Science: Water Research & Technology.2: 26-273.
59.Wang Q.Y., Zhang X.Y., Lv R. T., Chen X., Xue B. R., Liang P., Huang X.(2016) Binder-free nitrogen-doped graphene catalyst air-cathode for microbial fuel cells. Journal of Materials and Chemistry A. 4: 12387-12391.
60.Zhang H. L., Liang P.*, Bian Y. H., Jiang Y., Sun X. L., Zhang C. Y., Huang X., Wei F.(2016) Moderately oxidized graphene-carbon nanotubes hybrid for high performance capacitive deionization. RSC Advances. 6: 58907-58915.
61.Zhang, X. Y*., He, W. H., Zhang, R. F., Wang, Q. Y., Liang, P., Huang, X., Logan, B. E., Fellinger, T. P. (2016) High-performance carbon aerogel air cathodes for microbial fuel cells. Chemsuschem, 9(19), 2788-2795.
62.Bian Y.H., Yang X. F., Liang P.*, Jiang Y., Huang X. (2015) Enhanced desalination performance of membrane capacitive deionization cells by packing the flow chamber with granular activated carbon. Water Research. 85: 371-376.
63.Chen X., Sun D. Y., Zhang X. Y., Liang P., Huang X. (2015) Novel Self-driven Microbial Nutrient Recovery Cell with Simultaneous Wastewater Purification. Scientific Reports. 5:15744.
64.Zhang C., Liang P.*, Jiang Y., Huang X. (2015) Enhanced power generation of microbial fuel cell using manganese dioxide-coated anode in flow-through mode. Journal of Power Sources. 273: 580-583.
65.Zuo K., Liu H., Zhang Q., Liang P., Huang X., Vecities D. (2015) A single-use paper-shaped microbial fuel cell for rapid aqueous biosensing. Chemsuschem. 8: 2035-2040.
66.Lu Z., Girguis P., Liang P., Shi H., Huang G., Cai L., Zhang L. (2015) Biological capacitance studies of anodes in microbial fuel cells using electrochemical impedance spectroscopy. Bioprocess and Biosystems Engineering. 38: 1325-1333.
67.Mo Y., Xiao K., Liang P., Huang X. (2015) Effect of nanofiltration membrane surface fouling on organic micro-pollutants rejection: the roles of aqueous transport and solid transport. Desalination. 367: 103-111.
68.Zhang J., Satti A., Chen X., Xiao K., Sun J., Yan X., Liang P., Zhang X., Huang X. (2015) Low-voltage electric field applied into MBR for fouling suppression: performance and mechanisms. Chemical Engineering Journal. 273: 223-230.
69.Jiang Y., Liang P.*, Zhang C. (2015) Enhancing the response of microbial fuel cell based toxicity sensors to Cu(II) with the applying of flow-through electrodes and controlled anode potentials. Bioresource Technology. 190: 367-372.
70.Liang P., Yuan L., Yang X. (2015) Influence of circuit arrangement on the performance of a microbial fuel cell driven capacitive deionization (MFC-CDI) system Desalination. 369: 68-74.
71.Wu S., Liang P., Zhang C., Li H., Zuo K., Huang X. (2015) Enhanced performance of microbial fuel cell at low substrate concentrations by adsorptive anode. Electrochimica Acta. 161: 245-251.
72.Zuo K., Liang S., Liang P.*, Zhou X., Sun D., Zhang X., Huang X. (2015) Carbon filtration cathode in microbial fuel cell to enhance wastewater treatment. Bioresource Technology. 185: 426-430.
73.Yan X., Wu Q., Sun J. Y., Liang P., Zhang X. Y., Huang X. (2015) Hydrodynamic optimization of membrane bioreactor by horizontal geometry modification using computational fluid dynamics. Bioresource Technology. 200: 328-334.
74.Li P., Ailijiang N., Cao X. X., Lei T., Liang P., Zhang X. Y., Huang X. (2015) Pretreatment of coal gasification wastewater by adsorption using activated carbons and activated coke. Colloids and Surfaces A. 482:177-183.
75.Yan X., Xiao K., Liang S., Lei T., Liang P., Xue T., Huang X. (2015) Hydraulic optimization of membrane bioreactor via baffle modification using computational fluid dynamics. Bioresource Technology. 175: 633-637.
76.Wang S., Liang P.*, Wu Z., Su F., Yuan L., Sun Y., Huang X. (2015) Mixed sulfur-iron particles packed reactor for simultaneous advanced removal of nitrogen and phosphorus from secondary effluent. Environmental Science and Pollution Research. 22 (1): 415-424.
77.Wang S., Liang S., Liang P., Zhang X., Sun J., Wu S., Huang X. (2015) In-situ combined dual-layer CNT/PVDF membrane for electrically-enhanced fouling resistance. Journal of Membrane Science. 491: 37-44.
78.Xiao, Y*., Zheng, Y., Wu, S., Zhang, E. H., Chen, Z., Liang, P., Huang, X., Yang, Z. H., Ng, I., Chen, B. Y., Zhao, F. (2015). Pyrosequencing reveals a core community of anodic bacterial biofilms in bioelectrochemical systems from china. Frontiers in Microbiology, 6, 1410.
79.Sun, J. Y., Xiao, K., Yan, X. X., Liang, P., Shen, Y. X., Zhu, N. W., Huang, X*. (2015). Membrane bioreactor vs. oxidation ditch: full-scale long-term performance related with mixed liquor seasonal characteristics. Process Biochemistry, 50(12), 2224-2233.
80.Sun J. Y., Xiao K., Mo Y. H., Liang P.*, Shen Y. X., Zhu N. W., Huang X. (2014) Seasonal characteristics of supernatant organics and its effect on membrane fouling in a full-scale membrane bioreactor. Journal of Membrane Science. 453: 168-174.
81.Sun, Y., Shen, Y. X., Liang, P., Zhou, J., Yang, Y., Huang X. (2014) Linkages between microbial functional potential and wastewater constituents in large-scale membrane bioreactors for municipal wastewater treatment. Water Research. 56: 162-171.
82.Xiao K., Sun J., Mo Y., Fang Z., Liang P., Huang X., Ma B. (2014) Effect of membrane pore morphology on microfiltration organic fouling: PTFE/PVDF blend membranes compared with PVDF membranes. Desalination. 343: 217-225.
83.Liang S., Xiao K., Wu J., Liang P., Huang X. (2014) Mechanism of membrane filterability amelioration via tuning mixed liquor property by pre-ozonation. Journal of Membrane Science. 454: 111-118.
84.Xiao K., Shen Y. X., Liang S., Liang P., Wang X. M., Huang X. (2014) A systematic analysis of fouling evolution and irreversibility behaviors of MBR supernatant hydrophilic/hydrophobic fractions during microfiltration. Journal of Membrane Science. 467: 206-216.
85.Zhang J., Xiao K., Liang P., Waite T. D., Huang X. (2014) Electrically released iron for fouling control in membrane bioreactors: A double-edged sword? Desalination. 347: 10-14.
86.Zuo K. C., Cai J. X., Liang S., Wu S., Zhang C., Liang P.*, Huang X. (2014) A ten liter stacked microbial desalination cell packed with mixed ion-exchange resins for secondary effluent desalination. Environmental Science & Technology. 48 (16): 9917-9924.
87.Liang P., Yuan L. L., Yang X. F., Huang X. Zhou S. J. (2013) Coupling Ion-exchangers with Inexpensive Activated Carbon Fiber Electrodes to Enhance the Performance of Capacitive Deionization Cells for Domestic Wastewater Desalination. Water Research. 47: 2523-2530.
88.Liang P., Yuan L. L., Wu W. L., Yang X. F., Huang X. (2013) Enhanced performance of bio-cathode microbial fuel cells with the applying of transient-state operation modes. Bioresource Technology. 147: 228-233.
89.Liang P., Wei J. C., Li M., Huang X. (2013) Scaling up a novel denitrifying microbial fuel cell with an oxic-anoxic two stage biocathode. Frontiers of Environmental Science & Engineering. 7 (6): 913-919.
90.Zuo K. C., Yuan L. L., Wei J. C., Liang P.*, Huang X. (2013) Competitive migration behaviors of multiple ions and their impacts on ion-exchange resin packed microbial desalination cell. Bioresource Technology. 146: 637-642.
91.Xia X., Zhang F., Zhang X. Y., Liang P., Huang X, Logan B. E. (2013) Use of pyrolyzed iron ethylenediaminetetraacetic acid modified activated carbon as air-cathode catalyst in microbial fuel cells. Applied Materials & Interfaces. 5 (16): 7862-7866.
92.Ren S. T., Xia X., Yuan L. L., Liang P.*, Huang X. (2013) Enhancing charge harvest from microbial fuel cells by controlling the charging and discharging frequency of capacitors. Bioresource Technology. 146: 812-815.
93.Xia X., Tokash J. C. , Zhang F, Liang P., Huang X, Logan B. E. (2013) Oxygen-reducing biocathodes operating with passive oxygen transfer in microbial fuel cells. Environmental Science & Technology. 47 (4): 2085-2091.
94.Zhang X. Y., Liang P., Shi J., Wei J. C., Huang X. (2013) Using a glass fiber separator in a single-chamber air-cathode microbial fuel cell shortens start-up time and improves anode performance at ambient and mesophilic temperatures. Bioresource Technology. 130: 529-535.
95.Zhang X. Y., Shi J., Liang P., Wei J. C., Huang X., Zhang C. Y., Logan B. E. (2013) Power generation by packed-bed air-cathode microbial fuel cells. Bioresource Technology. 142: 109-114.
96.Luo X., Nam J. Y., Zhang F., Zhang X. Y., Liang P., Huang X., Logan B. E. (2013) Optimization of membrane stack configuration for efficient hydrogen production in microbial reverse-electrodialysis electrolysis cells coupled with thermolytic solutions. Bioresource Technology. 140: 399-405.
97.Shen Y. X., Xiao K., Liang P., Ma Y. W., Huang X. (2013) Improvement on the modified Lowry method against interference of divalent cations in soluble protein measurement. Applied Microbiology and Biotechnology. 97 (9): 4167-4178.
98.Shen Y. X., Xiao K., Liang P., Sun J. Y., Shai S. J., Huang X. (2012) Characterization of soluble microbial products in 10 large-scale membrane bioreactors for municipal wastewater treatment in China. Journal of Membrane Science. 415-416: 336-345.
99.Xia X., Sun Y. M., Liang P.*, Huang X. (2012) Long-term effect of set potential on biocathodes in microbial fuel cell: electrochemical and phylogenetic characterization. Bioresource Technology. 120: 26-33.
100.Yuan L. L., Yang X. F. Liang P.*, Wang L. Huang Z. H. Wei J. C., Huang X. (2012) Capacitive deionization coupled with microbial fuel cells to desalinate low-concentration salt water. Bioresource Technology. 110: 735-738.
101.Wei J. C., Liang P., Zuo K. C., Cao X. X., Huang X. (2012) Carbonization and activation of inexpensive semicoke-packed electrodes to enhance power generation of microbial fuel cells. ChemsusChem. 5 (6): 1065-1070.
102.Morel A., Zuo K., Xia X., Wei J. C., Luo X., Liang P.*, Huang X. (2012) Microbial desalination cells packed with ion-exchange resin to enhance water desalination rate. Bioresource Technology. 118: 43-48.
103.Luo X., Cao X. X., Mo Y. H., Xiao K., Zhang X. Y., Liang P.*, Huang X. (2012) Power generation by coupling reverse electrodialysis and ammonium bicarbonate: Implication for recovery of waste heat. Electrochemistry Communications. 19: 25-28.
104.Chen X., Liang P., Wei Z. M., Zhang X. Y., Huang X. (2012) Sustainable water desalination and electricity generation in a separator coupled stacked microbial desalination cell with buffer free electrolyte circulation. Bioresource Technology. 119: 88-93.
105.Liang P., Wu W., Wei J., Yuan L., Xia X., Huang X. (2011) Alternate charging and discharging of capacitor to enhance the electron production of bioelectrochemical systems. Environmental Science & Technology. 45 (15): 6647-6653.
106.Liang P., Wang H., Xia X., Huang X., Mo Y. H., Cao X. X., Fan M. Z. (2011) Carbon nanotube powders as electrode modifier to enhance the activity of anodic biofilm in microbial fuel cells. Biosensor & Bioelectronics. 26 (6): 3000-3004.
107.Chen X., Xia X., Liang P., Cao X. X., Sun H. T., Huang X. (2011) Stacked microbial desalination cells to enhance water desalination efficiency. Environmental Science & Technology. 45 (6): 2465-1470.
108.Sun Y., Wei J., Liang P., Huang X. (2011) Electricity generation and microbial community changes in microbial fuel cells packed with different anodic materials. Bioresource Technology. 102 (23): 10886-10891.
109.Wang L., Liang P., Zhang J., Huang X. (2011) Activity and stability of pyrolyzed iron ethylenediaminetetraacetic acid as cathode catalyst in microbial fuel cells. Bioresource Technology. 102 (8): 5093-5097.
110.Wei J., Liang P., Huang X. (2011) Recent progress in electrodes for microbial fuel cells. Bioresource Technology. 102 (20): 9335-9344.
111.Wei J., Liang P., Cao X., Huang X. (2011) Use of inexpensive semicoke and activated carbon as biocathode in microbial fuel cells. Bioresource Technology. 102 (22): 10431-10435.
112.Xie S., Liang P., Chen Y., Chen Y., Xia X., Huang X. (2011) Simultaneous carbon and nitrogen removal using an oxic/anoxic-biocathode microbial fuel cells coupled system. Bioresource Technology. 102 (1): 348-354.
113.Zhang X., Cheng S., Liang P., Huang X., Logan B. E. (2011) Scalable air cathode microbial fuel cells using glass fiber separators, plastic mesh supporters, and graphite fiber brush anodes. Bioresource Technology. 102 (1): 372-375.
114.Zhang X., Sun H., Liang P., Huang X., Chen X., Logan B. E. (2011) Air-cathode structure optimization in separator-coupled microbial fuel cells. Biosensors & Bioelectronics. 30 (1): 267-271.
115.Xia X., Cao X., Liang P., et al. (2010) Electricity generation from glucose by a Klebsiella sp in microbial fuel cells. Applied Microbiology and Biotechnology. 87 (1): 383-390.
116.Wei J., Liang P., Cao X., Huang X. (2010) A New Insight into Potential Regulation on Growth and Power Generation of Geobacter sulfurreducens in Microbial Fuel Cells Based on Energy Viewpoint. Environmental Science & Technology. 44 (8): 3187-3191.
117.Mo Y., Liang P., Huang X., Wang H., Cao X. (2009) Enhancing the stability of power generation of single-chamber microbial fuel cells using an anion exchange membrane. Journal of Chemical Technology and Biotechnology. 84 (12): 1767-1772.
118.Cao X., Huang X., Zhang X., Liang P., Fan M. (2009) A mini-microbial fuel cell for voltage testing of exoelectrogenic bacteria. Frontiers of Environmental Science & Engineering in China. 3 (3): 307-312.
119.Cao X., Huang X., Liang P., Xiao K., Zhou Y., Zhang X., Logan B. E. (2009) A new method for water desalination using microbial desalination cells. Environmental Science & Technology. 43 (18): 7148-7152.
120.Cao X., Fan M., Liang P., Huang X. (2009) Effects of anode potential on the electricity generation performance of Geobacter Sulfurreducens. Chemical Journal of Chinese Universities--Chinese. 30 (5): 983-987.
121.Liang P., Fan M., Cao X., Huang X. (2009) Evaluation of applied cathode potential to enhance biocathode in microbial fuel cells. Journal of Chemical Technology and Biotechnology. 84 (5): 794-799.
122.Cao X., Huang X., Liang P., Boon N., Fan M., Zhang L., Zhang X. (2009) A completely anoxic microbial fuel cell using a photo-biocathode for cathodic carbon dioxide reduction. Energy & Environmental Science. 2 (5): 498-501.
123.Cao X., Huang X., Zhang X., Liang P., Fan M. (2008) Electricity generation by an enriched phototrophic consortium in a microbial fuel cell. Electrochemistry Communications. 10 (9): 1392-1395.
124.Liang P., Huang X., Fan M., Cao X., Wang C. (2007) Composition and distribution of internal resistance in three types of microbial fuel cells. Applied Microbioligy and Biotechnology. 77 (3): 551-558.
125.Huang X., Meng Y., Liang P., Qian Y. (2007) Operational conditions of a membrane filtration reactor coupled with photocatalytic oxidation. Separation and Purification Technology. 55 (2): 165-172.
126.Huang X., Liang P., Qian Y. (2007) Excess sludge reduction induced by tubifex tubifex in a recycled sludge reactor. Journal of Biotechnology. 127 (3): 443-451.
127.Liang P., Huang X., Qian Y. (2006) Excess sludge reduction in activated sludge process through predation of Aeolosoma hemprichi. Biochemical Engineering Journal. 28 (2): 117-122.
128.Liang P., Huang X., Qian Y., Wei Y., Ding G. (2006) Determination and comparison of sludge reduction rates caused by microfaunas' predation. Bioresource Technology. 97 (6): 854-861.
二、中文文章:
1. 李晖,邵林广,赵岫章,伍世嘉,梁鹏*,黄霞. (2015) 填料型微生物燃料电池的欧姆阻力分析. 中国给水排水. 31(3): 24-27.
2. 张洪雷,方舟,艾立江.努尔拉,苏晓磊,梁鹏,黄霞. (2013) 两级A/O填料型MBR工艺的脱氮除磷效果. 中国给水排水. 29(13): 42-46.
3 .梁鹏,郭超,黄霞. (2013) 污泥水解液基质微生物燃料电池的研究. 电化学. 19(4): 332-335.
4. 罗希,梁鹏,曹效鑫,张潇源,黄霞. (2013) 碳酸氢铵-反向电渗析模块构型研究. 膜科学与技术. 6(33): 6-12.
5. 王波,梁鹏*,袁璐璐,黄霞,张传义. (2013) 离子膜在填料型微生物燃料电池中的应用. 中国给水排水. 29(7): 29-36.
6. 集电方式对填料型微生物燃料电池性能的影响. 中国给水排水. 29(9): 24-28.
7. 曹效鑫,梁鹏,范明志,黄霞. (2012) 用于产电纯菌研究的MFC反应器的开发. 中国给水排水. 28(7): 96-100.
8. 曹新,邵林广,梁鹏,黄霞. (2012) 新型滴滤式生物阴极微生物燃料电池的性能研究. 中国给水排水. 28(9): 40-43.
9. 王慧勇,呼唤,梁鹏. (2012) 不同来源菌群接种微生物燃料电池处理淀粉废水的研究. 工业水处理. 32(7): 60-63.
10. 王慧勇,梁鹏,黄霞. (2011) 表面改性碳纳米管粉体在微生物燃料电池中的应用. 中国给水排水. 27(11): 37-40.
11. 谢珊,梁鹏,李亮,黄霞. (2011) 好氧/缺氧生物阴极型微生物燃料电池组合工艺处理含氮废水的研究. 广东化工. 6(38): 126-127.
12. 谢珊,梁鹏,李亮,黄霞. (2011) 两瓶型微生物燃料电池处理垃圾渗滤液的研究. 中国给水排水. 27(15): 16-20.
13. 刘艳臣,张书军,沈悦啸,梁鹏,黄霞,施汉昌. (2011) 快速城市化进程中排水管网运行管理的技术思考与展望. 中国给水排水. 27(18): 9-12.
14. 谢珊,陈阳,梁鹏,黄霞. (2010) 好氧生物阴极型微生物燃料电池的同时硝化和产电的研究. 31(7): 1601-1606.
15. 钟登杰,黄霞,梁鹏,夏雪. (2010) 生物阴极微生物燃料电池产电性能的研究. 中国给水排水. 26(1): 9-12.
16. 张玲,梁鹏,黄霞,郑旭煦. (2010) 生物阴极型微生物燃料电池研究进展. 环境科学与技术. 33(11): 110-114.
17. 梁鹏,张玲,黄霞,范明志,曹效鑫. (2010) 双筒型微生物燃料电池生物阴极反硝化研究. 环境科学. 31(8): 1932-1936.
18. 梁鹏,王慧勇,黄霞,曹效鑫,莫颖慧. (2009) 环境因素对接种Shewanella baltica的微生物燃料电池产电能力的影响. 环境科学. 30(7): 2148-2152.
19. 梁鹏,黄霞,范明志,曹效鑫,崔岳. (2009) 双筒型微生物燃料电池产电及污水净化特性的研究. 环境科学. 30 (2): 616-620.
20. 钟登杰,陈阳,梁鹏,曹效鑫,黄霞. (2009) 阳极厚度对填料型微生物燃料电池产电性能的影响. 中国给水排水. 25 (7): 9-12.
21. 王慧勇,梁鹏,黄霞,王晓昌. (2009) 微生物燃料电池中产电微生物电子传递研究进展. 环境保护科学. 35(1): 17-35.
22. 曹效鑫,范明志,梁鹏,黄霞. (2009) 阳极电势对Geobacter sulfurreducens产电性能的影响. 高等学校化学学报. 30(5): 983-987.
23. 梁鹏,范明志,曹效鑫,黄霞,彭尹明,王硕,巩前明,梁吉. (2008) 碳纳米管阳极微生物燃料电池产电特性的研究. 环境科学. 29 (8): 2356-2360.
24. 梁鹏,范明志,曹效鑫,黄霞,黄正宏,王诚. (2008) 填料型微生物燃料电池产电特性的研究. 环境科学. 29 (2): 512-517.
25. 范明志,梁鹏,曹效鑫,黄霞. (2008) 阳极初始电势对微生物燃料电池产电的影响. 环境科学. 29 (1): 263-267.
26. 梁鹏,范明志,曹效鑫,黄霞,王诚. (2007) 微生物燃料电池表观内阻的构成和测量. 环境科学. 28 (8): 1894-1898.
27. 黄霞,范明志,梁鹏,曹效鑫. (2007) 微生物燃料电池阳极特性对产电性能的影响. 中国给水排水. 23 (3): 8-13.
28. 汪舒怡,汪诚文,梁鹏,黄霞. (2007) 膜曝气生物反应器的除碳脱氮特性研究. 中国给水排水. 23 (9): 40-43.
29. 梁鹏,杨乃鹏,黄霞. (2007) 新型摇动填料生物膜反应器处理生活污水的试验研究. 给水排水. 33 (8): 19-22.
30. 黄霞,梁鹏,曹效鑫,范明志. (2007) 无介体微生物燃料电池的研究进展. 中国给水排水. 23(4): 1-6.
31. 李舒渊,黄霞,梁鹏. (2007) 铁阳极电凝聚法除磷条件初探. 给水排水. 33: 94-98.
32. 梁鹏,黄霞. (2007) 利用LIVE/DEAD Baclight染色测定活性污泥中的活菌水平. 环境化学. 26(5): 598-601.
33. 曹效鑫,梁鹏,黄霞. (2006) “三合一”微生物燃料电池的产电特性研究. 环境科学学报. 26 (8): 1252-1257.
34. 梁鹏,黄霞,钱易,杨乃鹏. (2006) 3种生物处理方式对污泥减量效果的比较及优化. 环境科学. 27 (11): 2339-2343.
35. 白润英,梁鹏,黄霞. (2005) 卷贝进行污泥减量的应用研究. 给水排水. 31 (7): 19-21.
36. 梁鹏,黄霞,钱易. (2004) 利用红斑顠体虫减少剩余污泥产量的研究. 中国给水排水. 20 (1): 13-17.
37. 梁鹏,黄霞,钱易. (2004) 食物污泥对红斑顠体虫生长的影响. 中国环境科学. 24 (2): 159-162.
38. 梁鹏,黄霞,钱易,丁国际. (2004) 环境因子对红斑顠体虫生长的影响. 中国环境科学. 24 (5): 610-613.
39. 梁鹏,黄霞,钱易,丁国际. (2003) 污泥减量化技术的研究进展. 环境污染治理技术与设备. 4 (1): 44-51.
40. 梁鹏,孟耀斌,黄霞,钱易. (2002) 膜-悬浮光催化降解反应器中催化剂活性及其影响因素分析. 环境化学. 21 (4): 380-384.
41. 孟耀斌,黄霞,吴盈禧,梁鹏,施汉昌,钱易. (2001) 不同光强下光催化降解对氯苯甲酸钠动力学. 环境科学. 22 (4): 56-59.
获得专利:
1. 一种双筒型微生物燃料电池(ZL 3.9)
2. 一种用于产电微生物高通量培养和筛选的装置(ZL 9.6)
3. 一种快速检测微生物产电能力的装置(ZL 0.4)
4. 一种用于同步产电脱盐的污水处理工艺及装置(ZL 6.0)
5. 基于微生物燃料电池原理的水污染生物预警系统和方法(ZL 9.4)
6. 含氮过渡金属微生物燃料电池催化剂及其制备方法(ZL 7.8)
7. 一种生物阴极型微生物燃料电池(ZL 9.2)
8. 一种生物阴极自然充氧的微生物燃料电池(ZL 0.2)
9. 一种利用低温废热进行发电的方法及其装置(ZL 6.2)
10. 一种脱氮除磷装置(ZL 5.8)
11. Sewage treatment process and apparatus for generating electric current and desalting simultaneously (European Patent **, Australian Patent AU B2)
(研究组欢迎本科生、研究生、博士后加入,有意请联系liangpeng@tsinghua.edu.cn)


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