周立祥、教授、南京农业大学固体废物研究所所长，环境科学与工程学科点点长。研发的污泥生物沥浸技术、生物聚沉氧化技术已在我国许多污水处理厂、规模化养殖场、餐厨垃圾处理厂得到实际应用。
一、教育经历

1992.9-1995.9 南京农业大学 有机固废处理方向 博士研究生
1987.9-1990.6 南京农业大学 有机固废处理方向 硕士研究生
1981.9-1985.6 湖南农业大学 土化专业 本科生二、工作经历
1999．7-至今 南京农业大学 环境科学与工程系 教授、博士生导
师

1998.1-1999.6 南京农业大学 环境科学与工程系 副教授、硕士生导师
1996.1-1998.1 中国科学院地理研究所 博士后研究，副研究员
1995.10-1996.1 哈尔滨工业大学，水污染控制中心，访问研究
1990.7-1992.8 湖南农业大学 资源环境学院 讲师
1985.7-1987.8 湖南农学院分院 助教三、研究领域
1.有机固体废物处理。涉及污泥、餐厨/厨余垃圾、畜禽粪便等处理、生物转化与资源化。
2.高浓度有机废水处理。涉及餐厨垃圾沼液、畜禽养殖废水、垃圾渗滤液等的物化与生化处理。
3.酸性矿山废水和含重金属废水处理。重点研究生物矿化法在该


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类废水处理中的作用机理、效果及工程应用。

4.环境生物地球化学。研究土壤和水体环境中微生物-矿物-有毒金属的相互关系，重点研究微生物促进下铁矿物的形成及其在地下水除As 除 F 以及阻控水稻对 As 积累的效果与机制等。
四、获奖情况

1.2018 中国专利优秀奖 （第一完成人）

2.2018 中国产学研合作创新奖 （个人奖）

3.2016 教育部技术发明奖 一等奖 （第一完成人）

4.2014 第七届中国技术市场金桥奖 （个人奖）

5.2014 简浩然环境微生物基金优秀环境工程奖 （第一完成人）

6.2012 环保部环境保护科学技术奖 二等奖 （第四完成人）

7.2007 江苏建设科学技术奖 一等奖 （第一完成人）

8.2004 江苏省科学技术进步奖 二等奖 （第一完成人）五、教学情况
讲授环境工程专业本科生课程《固体废物处理处置与资源化》、硕士生和博士生课程《环境工程专题》、《环境工程研究班讨论》
六、学术与社会兼职

1.中国勘察设计注册环保工程师资格考试专家委员会委员
2.中国工程教育认证专家
3.国家畜禽养殖废弃物资源化科技创新联盟常务理事
4.中国土壤学会土壤环境专业委员会 副主任
5.中国城市环境卫生协会污泥处理处置专业委员会 委员


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6《.
南京农业大学学报》、《湖南农业大学学报》、《环境卫生工程》、

《生态学杂志》等编委七、主持项目
1.国家自然科学基金重点项目：含重金属酸性矿山废水的生物矿化处理新技术原理（21637003），291 万元，2017.1-2021.12,
2.国家自然科学基金重点项目：微生物成因矿物对酸性矿山废水中有毒金属清除的作用、机制及其调控（40930738），180 万元，2010.1- 2013.12
3.国家自然科学基金面上项目：生物成因施氏矿物阻控水稻吸收转运As 的效果与机制研究（41977338）,62 万元，2020.1-2023.12
4.国家自然科学基金面上项目：嗜酸性氧化亚铁硫杆菌促进酸性矿山废水石灰沟渠法处理效果的机制研究（41371476），75 万元，
2014.1-2017.12

5.国家自然科学基金面上项目：微生物胞外聚合物在污泥生物沥浸处理中的作用机理及其调控（21177060），65 万元，2012.1-2015.12
6.国家重点研究计划项目子课题：华南镉铅污染农田修复与安全
利用技术示范（2018YFD0800700），54 万元，2018.8-2022.8

7.国家 863 计划重点项目课题:节能降耗污泥脱水装备及制备建材技术与示范(2012AA063501),300 万元，2012.1-2015.12
8.国家 863 计划专题课题：生物沥浸法促进城市污泥高效脱水与

资源化利用的技术及其中试工程示范（2009AA06Z317），96 万元，

2009.1-2012.12


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9.校企产学研合作项目：“餐厨垃圾沼液及畜禽粪污废水高效处理与资源化技术及工程应用”（OYHD-B-201908001），2018.8-2023.8
八、发表论文
1.Yongwei Song, Linlin Yang, Heru Wang, Xinxin Sun, Shuangyou Bai, Ning Wang, Jianru
Liang, Lixiang Zhou*. The coupling reaction of Fe2+ bio-oxidation and resulting Fe3+ hydrolysis
drastically improve the formation of iron hydroxysulfate minerals in AMD,
Environmental Technology, 2019, DOI: 10.1080/09593330.2019.1701564
2.Wang Ning#, Di Fang#, Guanyu Zheng, Jianru Liang, Lixiang Zhou*. A novel approach coupling
ferrous iron biooxidation and ferric iron chemo-reduction to promote biomineralization
in simulated acidic mine drainage. RSC Advances, 2019,9:5083-5090
3.Decheng Jin,Lanlan Liu, Guanyu Zheng, Jianru Liang, Lixiang Zhou*. A rapid method to quantify the
biomass of viable Acidithiobacillus ferrooxidans in iron-based bioleaching matrix of sewage
sludge. Biochemical Engineering Journal, 2019,152: 107360
4.Xiaomeng Wang, Hekai Jiang, Di Fang, Jianru Liang, Lixiang Zhou*. A novel approach to rapidly
purify acid mine drainage through chemically forming schwertmannite followed by lime
neutralization. Water Research, 2019,151:515-522
5.Guanyu Zheng, Yi Lu, Dianzhan Wang, Lixiang Zhou*. Importance of sludge conditioning in
attenuating antibiotic resistance:Removal of antibiotic resistance genes by bioleaching and
chemical conditioning with Fe[III]/CaO. Water Research, 2019,152:61-73
6.Yi Lu, Guanyu Zheng*, Wenbin Zhou, Jiajun Wang, Lixiang Zhou. Bioleaching conditioning increased
the bioavailablity of polycyclic aromatic hydrocarbons to promote their removal during
co-composting of industrial and municipal sewage sludges. Science of the Total
Environment, 2019, 665:1073-1082.(NSFC 21477055,21637003)
7.Fenwu Liu*, Jing Shi, Jiebin Duan, Lixiang Zhou*, Jianmin Xu, Xianjun
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Hao,Wenhua Fan. Significance of jarosite dissolution from the biooxidized pyrite surface
on further biooxidation of pyrite. Hydrometallury, 2018,176:33-41
8.Yi Lu, Chunmei Zhang, Guanyu Zheng*, Lixiang Zhou*. Improving the compression dewatering
of sewage sludge through bioacidification conditioning driven by Acidithiobacillus
ferrooxidans: dewatering rate vs. dewatering extent. Environmental Technology, 2018:
1-14.
9.Wang Genmei, Lixiang Zhou*. Application of green manure and pig manure to Cd-contaminated paddy
soil increases the risk of Cd uptake by rice and Cd downward migration into groundwater: Field
micro-plot trials. Water Air Soil Pollut 2017, 228(1):29.DOI 10.1007/s11270-016-3207-2.
10.Xu Zhihui,Yu Yaqun,Fang Di., Liang Jianru, Zhou Lixiang*. Simulated solarlight
catalytic reduction of Cr(VI) on microwaveeultrasonication synthesized flower-like CuO in
the presence of tartaric acid. Materials Chemistry and Physics, 2016,171:386-393
11.Guanyu Zheng; Minbo Huo; and Lixiang Zhou*. Extracellular polymeric substances level
determines the sludge dewaterability in bioleaching process. Journal of Environmental
Engineering.2016,142(2): doi: 10.1061/(ASCE)EE.1943- 7870.0001008.
12.Guanyu Zheng, Zhenyu Wang, Dianzhan Wang, Lixiang Zhou*. Enhancement of sludge dewaterability
by sequential inoculation of filamentous fungus Mucor circinelloides ZG-3 and
Acidithiobacillus ferrooxidans LX5. Chemical Engineering Journal. 2016,284:216-223
13.Weitong Hu, Guanyu Zheng, Di Fang, Chunhong Cui, Jianru Liang, Lixiang Zhou*. Bioleached sludge
composting drastically reducing ammonia volatilization as well as decreasing bulking agent dosage
and improving compost quality: A case study. Waste Management, 2015,44:55-62
14.Zhihui Xu*,Yaqun Yu,Di Fang,Jiangyan Xu,Jianru Liang,Lixiang
Zhou*.Microwave–ultrasound assisted synthesis of β-FeOOH and its catalytic property in a
photo-Fenton-like process. Ultrasonics Sonochemistry.2015,27:287-295.
15.Fenwu Liu, Jun Zhou,Lixiang Zhou*, Shasha Zhang, Lanlan Liu, Ming Wang.
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Effect of neutralized solid waste generated in lime neutralization on the ferrous ion bio-
oxidation process during acid mine drainage treatment. Journal of Hazardous Materials.
2015,299:404-411
16.Zhenyu Wang, Guanyu Zheng*, Lixiang Zhou. Degradation of slime extracellular
polymeric substances and inhibited sludge flocs destruction contribute to sludge dewaterability
enhancement during fungal treatment of sludge using filamentous fungus Mucor sp. GY-1. Bioresource
Technology. 2015,192:514-521
17.Qingjie Hou, Di Fang, Jianru Liang, Lixiang Zhou*. Significance of oxygen supply in jarosite
biosynthesis promoted by acidithiobacillus ferrooxidans. PLoS ONE， 2015，10(3): e0120966
18.Zhou Jun, Guanyu Zheng,Xueying Zhang, Lixiang Zhou*. Influences of extracellular
polymeric substances on the dewaterability of sewage sludge during bioleaching. PLoS
ONE.2014, 9(7):e102688
19.Song Yongwei, Guanyu Zheng, Minbo Huo, Bowen Zhao, Lixiang Zhou*. Extracellular
polymeric substances and bound water drastically affect bioleached sludge dewaterability
at low temperature. Environmental Technology, 2014,35(20):2538-2545
20.Huo Mingbo, Zheng Guanyu, Zhou Lixiang*. Enhancement of the dewaterability of
sludge during bioleaching mainly controlled by microbial quantity change and the decrease
of slime extracellular polymeric substances content. Bioresource Technology,
2014,168:190-197
21.Song Yongwei, Ming Wang, Jianru Liang, Lixiang Zhou*. High-rate precipitation of
iron as jarosite by using a combination process of electrolytic reduction and biological oxidation.
Hydrometallurgy, 2014,143:23-27
22.Zhihui Xu, Shuangyou Bai, Jianru Liang, Lixiang Zhou*, Yeqing Lan. Photocatalytic
reduction of Cr(VI) by citric and oxalic acids over biogenetic jarosite. Materials science &
engineering. C, 2013, 33(4):2192-2196
23.Chaocheng Zheng, Lixiang Zhou*. Antibacterial potency of housefly larvae extract from
sewage sludge through bioconversion. Journal of Environmental Sciences

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2013, 25(9)：1897-1905
24.Xu Zhihui, Zhang Ming, Wu Jingyu, Liang Jianru, Zhou Lixiang*, Lu Bo. Visible
light-degradation of azo dye methyl orange using TiO2/β-FeOOH as a heterogeneous
photo-Fenton-like catalyst. Water Science and Technology, 2013,68(10):2178-2185
25.Xie Yue, Zhou Lixiang*. Arsenite removal from simulated groundwater by biogenic
schwertmannite: A column trial. Pedosphere, 2013,23(3):402- 408
26.Zhou J, Zheng G Y, Wong J W C﹡, Zhou L X. 2013. Degradation of inhibitory
substances by heterotrophic microorganisms Galactomyces sp. Z3 and its extracellular polymeric
substances in improving wastewater sludge bioleaching. Bioresource Technollogy, 132:
217-223.
27.Zhou J, Zheng G Y, Zhou L X﹡, Liu F W, Zheng C C, Cui C H. The role of
Galactomyces sp. Z3 in improving pig slurry bioleaching. Environ. Technol., 2013, .34 (1): 35-43.
28.Zhihui Xu, Jianru Liang, Lixiang Zhou*. Photo-Fenton-like degradation of azo dye methyl orange
using synthetic ammonium and hydronium jarosite. Journal of Alloys and Compounds,
2013,546:112-118
29.Zhou J, Zhou L X﹡, Liu F W, Zheng C C, Deng W J. Transformation of heavy
metals and the formation of secondary iron minerals during pig slurry bioleaching by the
co-inoculation acidophilic thiobacillus. Environmental Technology, 2012,.33 (22): 2553-2560.
30.Min Wang , Lixiang Zhou*. Simultaneous oxidation and preciptation of iron using jarosite
immobilized Acidithiobacillus ferrooxidans and its relevance to acid mine drainage.
Hydrometallurgy, 2012,125-126:152-156
31.Fenwu Liu, Jun Zhou, DianzhanWang, Lixiang Zhou*.Enhancing sewage sludge dewaterability
by bioleaching approach with comparison to other physical and chemical conditioning methods.
Journal of Environmental Sciences, 2012, 24(8)1403- 1410
32.Fenwu Liu, Lixiang Zhou*, Jun Zhou, Xingwei Song, DianzhanWang. Improvement of
sludge dewaterability and removal of sludge-borne metals by
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bioleaching at optimum pH. Journal of Hazardous Materials, 2012,221-222:170-177. 33.Dianzhan Wang,
Guanyu Zheng, Lixiang Zhou*. Isolation and characterization
of a nitrobenzene-degrading bacterium Klebsiella ornithinolytica NB1 from aerobic granular
sludge. Bioresource Technology, 2012,110:91-96
34.Shan Huang, Lixiang Zhou*. Fe2+ oxidation rate drastically affect the formation
and phase of secondary iron hydroxysulfate mineral occurred in acid mine
drainage.Materials Science and Engineering C 2012, 32:916-921
35.Yang Xinping, Shimei Wang, Lixiang Zhou*. Effect of carbon source, C/N ratio, nitrate and
dissolved oxygen concentration on nitrite and ammonium production from denitri?cation process
by Pseudomonas stutzeri D6. Bioresource Technology. 2012,104(1):65-72
36.Xinhua Zhan, Xiaobin Zhang, Xiaoming Yin, Hengliang Ma, Jianru Liang, Lixiang Zhou,*
Tinghui Jiang, and Guohua Xu. H+/phenanthrene symporter and aquaglyceroporin are implicated
in phenanthrene uptake by wheat (Triticum aestivum L.) roots. Journal of Environmental Quality.
2012, 41: 188-196
37.Shuangyou Bai, Zhihui Xu, Min Wang, Yuehua Liao, Jianru Liang, Chaocheng Zheng, Lixiang Zhou*.
Both initial concentrations of Fe(II) and monovalent cations jointly determine the formation of
biogenic iron hydroxysulfate precipitates in acidic sulfate-rich environments. Materials Science
and Engineering C, 2012, 32(8): 2323- 2329.
38.Wang Dianzhan, Guanyu Zheng,Shimei Wang, Dewei Zhang, Lixiang Zhou*. Biodegradation of aniline
by Candida tropicalis AN1 isolated from aerobic granular sludge. Journal of Environmental Sciences
2011, 23(12) 2063–2068
39.Zheng Guanyu, Lixiang Zhou*. Supplementation of inorganic phosphate enhancing the
removal efficiency of tannery sludge-borne Cr through bioleaching. Water Research, 2011,
45：5295-5301
40.Liao Y.H., Liang J.R., Zhou L.X*. Adsorptive removal of As(III) by biogenic
schwertmannite from simulated As-contaminated groundwater. Chemosphere, 2011, 83:295-301
41.Yang Xinping, Shimei Wang, Dewei Zhang, Lixiang Zhou*. Isolation and

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nitrogen removal characteristics of an aerobic heterotrophic nitrifying–denitrifying
bacterium, Bacillus subtilis A1. Bioresource Technology. 2011,102(2):854-862
42.Wang Jiangang; Zhan Xinhua; Zhou Lixiang*; Lin Yusuo. Biological indicators capable of
assessing thermal treatment efficiency of hydrocarbon mixture- contaminated soil.
Chemosphere, 2010, 80 (8): 837-844.
43.Wang Shimei, guanyu Zheng, Lixiang Zhou. Heterotrophic microorganism Rhodotorula
mucilaginosa R30 improves tannery sludge bioleaching through elevating dissolved CO2 and
extracellular polymeric substances levels in bioleach solution as well as scavenging toxic DOM to
Acidithiobacillus species. Water Research. 2010, 44： 5423-5431
44.Zhan Xinhua, Wu Wenzhu, Zhou Lixinag*, Jianru Liang, Tinghui Jiang. Interactive effect
of dissolved organic matter and phenanthrene on soil enzymatic activities. Journal of
Environmental Sciences, 2010, 22(4):607-614
45.Zhan Xinhua, Ma Hengliang, Zhou Lixiang *, Jiang Tinghui, Xu Guohua
.Accumulation of phenanthrene by roots of intact wheat (Triticum acstivnm L.) seedlings: passive or
active uptake? BMC Plant Biology 2010,10:52
46.Feng He, and Lixiang Zhou*. Treatment for woolscouring effluent through
bioacidification by Acidithiobacillus thiooxidans. Int. J. Environment and Pollution,
2010,40(4):391-401
47.Li Z.L., Zhou L.X*. Cadmium transport mediated by soil colloid and dissolved organic matter:A
?eld study. Journal of Environmental Sciences. 2010,22(1):106-115
48.Pei Xiaohong; Zhan Xinhua; Wang Shimei; Lin Yusuo; Zhou Lixiang*. Effects of a biosurfactant
and a synthetic surfactant on phenanthrene degradation by a sphingomonas strain.
Pedosphere, 2010, 20 (6): 771-779.
49.Pei Xiaohong, Zhan Xinhua, Zhou Lixiang*. Effect of biosurfactant on the sorption of
phenanthrene onto original and H2O2-treated soils. Journal of Environmental
Sciences, 2009, 21(10):1378-1385
50.Yuehua Liao, Lixiang Zhou*, Shuangyou Bai, Jianru Liang, Shimei Wang. Occurrence of
biogenic schwertmannite in sludge bioleaching environments and its adverse effect on
solubilization of sludge–borne metals. Applied Geochemistry,
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2009,24:1739-1746
51.Guanyu Zheng, Lixiang Zhou*, Shimei Wang. An acid-tolerant heterotrophic microorganism role in
improving tannery sludge bioleaching conducted in successive multi-batch reaction systems.
Environmental Science and Technology, 2009, 43(11): 4151–4156
52.Yuehua Liao, Lixiang Zhou*, Jianru Liang, Huixin Xiong. Biosynthesis of schwertmannite
by Acidithiobacillus ferrooxidans cell suspensions under different pH condition. Materials Science
& Engineering C, 2009,29:211-215
53.Huixin Xiong, Yuehua Liao, Lixiang Zhou*, Influence of chloride and sulfate on formation of
akaganéite and schwertmannite through ferrous biooxidation by Acidithiobacillus
ferrooxidans cells. Environmental Science and Technology, 2008,42(23):8681-8686
54.Zhou S.G., L.X.Zhou*, D.Fang. Enhancing metal removal by coaddition of Fe2+ and S0
as substrates of acidithiobacillus ferrooxidans for sewage sludge bioleaching. Practice
Periodical of Hazardous, Toxic, and Radioactive Waste Management. 2008, 12(3):159-164.
55.Huixin Xiong, Yuehua Liao, Lixiang Zhou*, Yiqun Xu, and Shimei Wang Biosynthesis of
nanocrystal akaganéite from FeCl2 solution oxidized by acidithiobacillus
ferrooxidans cells. Environmental Science and Technology, 2008, 42 (11)：4165–4169.




















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