钟华  教授、博导
湖南大学环境科学与工程学院 | 环工英才
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           钟华,博士,教授,博士生导师。主要从事受污染水环境与土壤的修复技术及水处理技术研究。现为国际水协会(IWA)会员,美国地球物理联合会(AGU)会员,中国环境科学学会高级会员。国家注册环境影响评价工程师,国家注册环保工程师。中国国家自然科学基金、爱尔兰自然科学基金及哈萨克斯坦国家科学技术评估中心评审委员,多次国际会议的大会或分会场主席。Water Research、Environmental Science & Technology、Journal of Hazardous Materials、《环境科学》等20多个学术期刊审稿人。在国内外学术期刊发表论文70余篇,其中SCI收录近50篇,EI收录50余篇。参与编写《环境工程设计与运行案例》、《堆肥环境生物与控制》等论著。


主要履历

1998.09-2002.06,湖南大学环境工程专业,获学士学位;
2002.09-2005.06,湖南大学环境工程专业,获硕士学位;
2005.09-2008.06,湖南大学环境工程专业,获博士学位;
2008.07-2011.06,湖南大学环境科学与工程学院,助理教授;
2011.06-2016.06,美国亚利桑那大学土壤、水和环境科学系(SWES, The University of Arizona)研究员;
2016.07-,武汉大学水利水电学院,教授。


主要研究方向

1.地下水和土壤多孔介质中污染物的运移和转化
   污染物在自然多孔介质中的运移和转化行为对于污染源所造成的环境风险评估以及污染场地处理与修复实践有重要意义。这些污染物主要包括有机污染物、胶体和纳米颗粒、重金属、氮硫无机盐类以及微生物,其中基本过程包括扩散、溶解、吸附(解吸)、化学转化以及生物降解,它们决定污染物的传输和归趋,是我们研究的兴趣所在。目前主要研究方向包括:(1) 多孔介质中的相间传质行为(如吸附/解吸、非水液相的溶解、污染物的相间分配);(2) 污染物的传质、运移及转化的协同过程;(3) 多孔介质中污染物的非生物(如化学氧化和还原)与生物转化过程;(4) 胶体与纳米颗粒物的运移;(5) 表面活性剂去除多孔介质中疏水性有机物与重金属的行为机制及其应用;(6) 受污染土壤与地下水原位修复的新方法和新技术。

2. 基于高级氧化法的新型原位化学氧化修复技术
   由于工业排放、储罐或输送管线泄露、事故性排放等原因,我国土壤和地下水中难降解有机物的污染问题日益突出。这些有机物主要包括部分种类的石油烃、氯代有机溶剂及其添加物、多环芳烃(PAHs)、多氯联苯(PCBs)、全氟化物(PFCs)、垃圾渗滤液有机物等,由于难以生物降解,这些有机物自然衰减过程缓慢,因此能造成长期污染和健康风险。原位化学氧化(ISCO)是针对难降解有机物污染修复的重要方法。基于高级氧化的新型原位化学氧化方法是我们的研究兴趣所在。主要方向包括:(1) 过硫酸盐强化的原位可渗透反应墙用于难降解有机物的去除及污染源控制;(2) 持续高效的过硫酸盐原位激活方法及深层地下水中有机污染物的去除;(3) 含有非水液相(NAPL)的有机污染源的原位化学氧化过程。

3. 表面活性剂在有机污染地下水修复及废水生物处理中的作用机制及其应用
   表面活性剂分子中既含有极性(亲水)基团又含有非极性(疏水)基团,由于结构的特殊性,它能够实现疏水性有机污染物在水中的增溶、改变多孔介质中有机污染物的分布状态、络合重金属以及与微生物菌体发生作用,影响污染物的分配、传质和降解行为。近年来诸如生物表面活性剂等高效低污染并且环境友好的新型表面活性剂的出现,更加提升了它在地下水修复和废水处理中的应用潜力。主要研究方向包括:(1) 溶液中低浓度表面活性剂的自聚集行为及与疏水性有机污染物的共聚集行为(增溶作用);(2) 表面活性剂对多孔介质中有机污染物分布、传输及生物可利用性的影响;(3) 表面活性剂作用下有机污染物降解菌的迁移行为;(4) 表面活性剂影响酚类物质微生物毒性的作用机制;(5) 表面活性剂在有机污染废水处理中的应用;(6) 表面活性剂淋滤去除土壤或沉积物中的重金属。

   (除环境工程和环境科学外,也欢迎有土壤化学、微生物学或水文地质学背景的同学加入。我们的理念和目标:快乐学习,快乐科研,快乐生活)


主要研究课题

(在研)
1. 国家自然科学基金面上项目“低浓度表面活性剂作用下多孔介质中非水液相的迁移和增溶行为及其控制”(No.51779182),主持人;
2. 国家自然科学基金面上项目“饱和多孔介质中表面活性剂影响疏水性有机物生物可利用性的行为机制研究”(No.51378192),主持人;
3. 湖北省杰出青年科学基金“多孔介质中过硫酸盐的高效原位激活与有机污染物降解机制研究”(No.2017CFA058),主持人;
4. 国家水专项“多水源格局下城市供水安全保障技术体系构建”课题一子课题3“中线水质预报与风险评估预警关键技术”第一专题,主持人;
5. 中央高校专项创新拔尖人才基金“鼠李糖脂的聚集行为、对疏水性有机物的增溶行为及有机物的生物可利用性”,主持人;
(已完成)
6. 美国国防部战略环境研究与发展项目(SERDP)“Facilitated Transport Enabled In Situ Chemical Oxidation of 1,4-Dioxane-Contaminated Groundwater” (No.ER-2302),实施负责人;
7. 美国NIEHS超级基金项目“Mass-transfer and Mass-flux Dynamics of Chlorinated Solvents in Heterogeneous Systems”(#E504940),实施负责人;
8. 美国能源部(DOE)项目“In-situ Biosequestration for Remediation of Uranium in Groundwater at the Monument Valley UMTRA Site”,实施负责人;
9. 美国农业部国家自主研究基金项目“A Mechanistic Study of the Transport and Fate of Biosolid Colloids in Soil”,主要参与人;
10. 国家自然科学基金青年基金项目“鼠李糖脂改变土壤中石油烃降解菌表面疏水性的作用机制及其与石油烃摄取行为的关联”(No.50908081),主持人;
11. 国家水专项“湘江水环境重金属污染整治关键技术研究与综合示范课题”子课题“霞湾港重金属污染底泥环保清淤技术”(No.2009ZX0 7212-001-02),专题负责人之一;
12. 广州市科技项目“广州周边乡镇和农村污水处理厂污泥好氧堆肥”,实施负责人;
13. 国家自然科学基金项目“基于生物表面活性剂的逆胶束体系构建及其对木质纤维素降解酶的纯化机理”(No.50978087),主要参与人;
14. 国家“十五”高科技计划项目(863计划项目)“城市生活垃圾资源化利用技术及设备研究——基于生物与自动化高科技的城市生活垃圾高效堆肥技术与设备研究”(No.2001AA644020, 2003AA644010, 2004AA649370),主要参与人;
15. 国家基础研究计划项目(973计划项目)“环境生物技术与控制”(No.2005CB724203),主要参与人。

主要课程

1. 环工原理(本科);
2. 环境水利学(本科);
3. 环境影响评价(本科);
4. 环境科学与工程专业英语(本科、硕士研究生);
5. 环境修复原理与技术(硕士研究生);


国际会议邀请报告

[9] Sub-CMC solubilization of alkane by surfactants in porous media. 2017 International Forum on Groundwater and Cross-Strait Symposium on Application of Hydrogeology, Hefei, Jul 6-7, 2017
[8] In-situ activation of persulfate by magnetite nanoparticles in a sand porous media for degradation of 1,2-dichloroethane. WRE2017, June 26-29 2017, Qingdao, China (分会场主席)
[7] Heterogeneous activation of persulfate using Fe3O4 for degradation of refractory organic compounds in water. 6th Annual International Conference on Sustainable Energy and Environmental Sciences (SEES 2017), Mar 6-7 2017, Singapore (大会主席兼分会场主席)
[6] In-situ biosequestration of uranium in groundwater: bench and pilot scale studies. IPWE2017, Jan 4-6, Wuhan, China (分会场主席)
[5] Heterogeneous activation of persulfate by Fe-based materials for oxidative removal of refractory organic compounds. WRE2016, July 23–26 2016, Shanghai, China
[4] Innovative in-situ oxidation technology for treating groundwater contaminated by chlorinated solvents and 1,4-dioxane. IC EST Conference 2016, June 6–9 2016, Houston, TX
[3] In-situ oxidation technologies for treating groundwater contaminated by chlorinated solvent compounds and concurrent contaminants. WRRC Annual Conference 2016, March 27 2016, Tucson, AZ
[2] Pilot Scale In-situ Biosequestration of Uranium in Groundwater at the Monument Valley UMTRA Site. American Geophysical Union 2015 fall meeting, December 14–18 2015, San Francisco, CA
[1] Interfacial partitioning tracer test measurement of NAPL-water interfacial areas in porous media under two-phase flow condition. American Geophysical Union 2013 fall meeting, December 9–13 2013, San Francisco, CA


论坛和研讨会报告

[9] Attenuation of nitrate in groundwater and its enhancement. The 2nd international forum on remediation-protection of soil and water environment and environmentally friendly fertilizer. Ma’anshan, Jun 25-26, 2017
[8] Biosequestration of Uranium in Groundwater – Use Monument Valley UMTRA Site as an Example. Sustainable Use of Resources and Energy, East Lake Forum 2017, Wuhan, China
[7] Advances of technologies for in situ groundwater remediation. School of Civil and Environmental Engineering, Nanyang Technological University, March 2017, Singapore
[6] Persulfate-based ISCO for removal of persistent organic contaminants from groundwater. 2017 Sino-German Symposium on Fate, Transport and Remediation of POPs in Soil and Groundwater, Institute of Soil Science, CAS, Nanjing, China
[5] In-situ oxidation technologies for groundwater remediation. Environmental Engineering Laboratory 2016, University of Science and Technology of China, Hefei, China
[4] In-situ Biosequestration of Uranium in Groundwater. School of Environment forum 2016, Nanjin University, Nanjing, China
[3] Biosequestration of uranium in groundwater. Forum of School of Environmental Science and Engineering 2016, Jiangnan University, Wuxi, China
[2] Innovative in-situ oxidation technologies for treating groundwater contaminated by chlorinated solvents and 1,4-dioxane. State key laboratory seminar forum 2015, Wuhan University, Wuhan, China
[1] Application of low-concentration surfactants for remediation of solvent contaminated aquifers: measurement of NAPL-Water interfacial areas and NAPL solubilization. Green Earth Forum 2015, China University of Geoscience, Wuhan, China


主要研究论文

2017年
[59] Zhong H*, Liu GS*, Jiang YB, Yang JZ, Liu Y, Yang X, Liu ZF, Zeng GM. Transport of bacteria in porous media and its enhancement by surfactants for bioaugmentation: a review. Biotechnology Advances. 2017, 35: 490-504
[58] Shao BB, Liu ZF*, Zhong H*, Zeng GM, Liu GS, Yu MD, Liu Y, Yang X, Li ZG, Fang ZD, Zhang JT, Zhao CH. Effects of rhamnolipids on microorganism characteristics and applications in composting: A review. Microbiological Research. 2017, 200: 33-44
[57] Liu GS, Zhong H*, Jiang YB, Brusseau ML, Huang JS, Shi LS, Liu ZF, Liu Y, Zeng GM. Effect of low-concentration rhamnolipid on Pseudomonas aeruginosa transport in natural porous media. Water Resources Research. 2017, DOI: 10.1002/2016WR019832
[56] Liu Y, Zeng GM*, Zhong H*, Wang ZQ, Liu ZF. Effect of rhamnolipid solubilization on hexadecane bioavailability: enhancement or reduction? Journal of Hazardous Materials. 2017, 322: 394-401
[55] Zhong H*, Tian YL, Yang Q, Yang L, Zeng GM. Degradation of landfill leachate compounds by persulfate for groundwater remediation. Chemical Engineering Journal. 2017, 307: 399-407

2016年
[54] Zhong H, El Ouni A, Lin D, Wang BG, Brusseau ML*. The two-phase flow IPTT method for measurement of nonwetting-wetting liquid interfacial areas at higher nonwetting saturations in natural porous media. Water Resources Research. 2016, DOI: 10.1002/2016WR018783
[53] Zhong H*, Zhang H, Liu ZF, Yang X, Brusseau ML, Zeng GM. Sub-CMC solubilization of dodecane by rhamnolipid in saturated porous media. Scientific Reports. 2016, 6:33266
[52] Zhong H*, Wang ZQ, Liu Y, Liu ZF, Yu MD, Zeng GM. Degradation of hexadecane by Pseudomonas aeruginosa with the mediation of surfactants: relation between hexadecane solubilization and bioavailability. International Biodeterioration and Biodegradation. 2016, 115: 141-145
[51] Zhong H*, Yang X, Tian F, Brusseau ML, Yang L, Liu ZF, Zeng GM, Yuan XZ. Aggregate-based sub-CMC solubilization of n-alkanes by monorhamnolipid biosurfactant. New Journal of Chemistry. 2016, 40, 2028-2035
[50] Zhong H*, Liu GS, Jiang YB, Brusseau ML, Liu ZF, Liu Y, Zeng GM. Effect of low-concentration rhamnolipid on transport of Pseudomonas aeruginosa ATCC 9027 in an ideal porous medium with hydrophilic or hydrophobic surfaces. Colloids and Surfaces B: Biointerfaces. 2016, 139: 244-248
[49] Wu ZB, Yuan XZ*, Zhong H*, Wang H, Zeng GM, Chen XH, Wang H, Zhang L, Shao JG. Enhanced adsorptive removal of p-nitrophenol from water by aluminum metal-organic framework/reduced graphene oxide composite. Scientific Reports. 2016, 6: 25638-25650
[48] Yuan XZ*, Wu ZB, Zhong H*, Wang H, Chen XH, Leng LJ, Jiang LB, Xiao ZH, Zeng GM. Fast removal of tetracycline from wastewater by reduced graphene oxide prepared via microwave assisted ethylenediamine-N,N'-disuccinic acid induction method. Environmental Science and Pollution Research. 2016, 23: 18657-18671
[47] Liu ZF*, Yu MD, Zeng GM*,  Li M, Zhang JC, Zhong H, Liu Y, Shao BB, Li ZG, Wang ZQ, Liu GS, Yang X. Investigation on the reaction of phenolic pollutions to mono-rhamnolipid micelles using MEUF. Environmental Science and Pollution Research. 2016. doi:10.1007/s11356-016-7851-2

2015年
[46] Zhong H, Brusseau ML*, Wang YK, Yan N, Quig L, Johnson GR. In situ activation of persulfate by iron filings and oxidation of 1,4-dioxane. Water Research. 2015, 83: 104-111
[45] Hua Zhong*, Yongbing Jiang, Guangming Zeng, Zhifeng Liu, Liuxia Liu, Yang Liu, Xin Yang, Mingyong Lai, Yibin He. Effect of low-concentration rhamnolipid on adsorption of Pseudomonas aeruginosa ATCC 9027 on hydrophilic and hydrophobic surfaces. Journal of Hazardous Materials, 2015, 285: 383-388
[44] Zhong H*, Yang L, Yang X, Zeng GM, Liu ZF, Liu Y, Yuan XZ. Aggregation of low-concentration dirhamnolipid biosurfactant in aqueous medium. RSC Advances. 2015, 5, 88578–88582
[43] Zhong H*, Yang L, Zeng GM, Brusseau ML, Wang YK, Li Y, Liu ZF, Yuan XZ, Tian F. Aggregate-based sub-CMC solubilization of hexadecane by surfactants. RSC Advances. 2015, 5, 78142–78149
[42] Yang Q, Zhong Y, Zhong H, Li X, Du WX, Li XM, Chen R, Zeng GM. A novel pretreatment process of mature landfill leachate with ultrasonic activated persulfate: Optimization using integrated Taguchi method and response surface methodology. Process Safety and Environmental Protection, 2015, 98: 268-275
[41] Yu MD,  Liu ZF, Zeng GM, Zhong H, Liu Y, Jiang YB, Li M, He XX, He Y. Characteristics of mannosylerythritol lipids and their environmental potential. Carbohydrate Research. 2015, 407: 63-72
[40] Brusseau ML, El Ouni A, Araujo JB, Zhong H. Novel methods for measuring air-water interfacial area in unsaturated porous media. Chemosphere. 2015, 127: 208-213

2014年
[39] Zhibin Wu, Hua Zhong*, Xingzhong Yuan*, Hou Wang, Lele Wang, Xiaohong Chen, Guangming Zeng,Yan Wu. Adsorptive removal of methylene blue by rhamnolipid-functionalized graphene oxide from wastewater. Water research, 2014, 67: 330-344
[38] Yang Liu, Xiaoling Ma, Guangming Zeng*, Hua Zhong*, Zhifeng Liu, Yongbing Jiang, Xingzhong Yuan, Xiaoxiao He, Mingyong Lai, Yibin He. Role of low-concentration monorhamnolipid in cell surface hydrophobicity for Pseudomonas aeruginosa: adsorption or lipopolysaccharide content modification. Applied Microbiology and Biotechnology, 2014, 98:10231-10241
[37] Hua Zhong*, Yang Liu, Zhifeng Liu, Yongbing Jiang, Fei Tan, Guangming. Zeng, Xingzhong Yuan, Ming Yan, Qiuya Niu, Yunshan Liang. Degradation of pseudo-solubilized and mass hexadecane by a Pseudomonas aeruginosa with treatment of rhamnolipid biosurfactant. International Biodeterioration & Biodegradation, 2014, 94: 152-159
[36] Lele Wang, Xingzhong Yuan*, Hua Zhong*, Hou Wang, Zhibin Wu, Xiaohong Chen, Guangming Zeng. Release behavior of heavy metals during treatment of dredged sediment by microwave-assisted hydrogen peroxide oxidation. Chemical Engineering Journal, 2014, 258: 334-340
[35] Jianxin Ouyang, Zhou Shi, Hua Zhong, Wei Liu, Qi Chai, Xingzhong Yuan, Static aerobic composting of municipal sewage sludge with forced ventilation: Using matured compost as bulking conditioner. J. Cent. South Univ., 2014, 21: 303-309
[34] 谈菲, 刘智峰, 钟华*, 曾光明, 袁兴中. 低浓度鼠李糖脂单糖脂在近中性溶液中的聚集行为. 中国环境科学, 2014, 34:2912-2916
[33] 刘洋, 钟华*, 刘智峰, 蒋勇兵, 谈菲, 曾光明, 赖明勇, 何益斌. 生物表面活性剂鼠李糖脂的纯化与表征. 色谱, 2014, 32: 248-255

2013年
[32] Hou Wang, Xingzhong Yuan, Yan Wu, Huajun Huang, Xin Peng, Guangming Zeng, Hua Zhong, Jie Liang, Miaomiao Ren. Graphene-based materials: Fabrication, characterization and application for the decontamination of wastewater and wastegas and hydrogen storage/generation. Advances in Colloid and Interface Science. 2013, 195-196: 19-40
[31] 刘卫, 袁兴中, 欧阳建新, 钟华, 曾光明, 黄华军, 柴琦. 利用污泥熟肥作为高含水率污泥堆肥调理剂. 环境工程学报. 2013, 6: 2349-2355

2012年
[30] Yuan Xingzhong, Jiang Lili, Zeng Guangming, Liu Zhifeng, Zhong Hua, Huang Huajun, Zhou Meifang, Cui Kailong. Effect of rhamnolipids on cadmium adsorption by Penicillium simplicissimum. Journal of Central South University. 2012, 19: 1073-1080
[29] Peng Xin, Yuan Xingzhong, Zeng Guangming, Huang Huajun, Zhong Hua, Liu Zhifeng, Cui Kailong, Liang Yunshan, Peng Ziyuan, Guo Lingzhi, Ma Yukun, Liu Wei. Extraction and purification of laccase by employing a novel rhamnolipid reversed micellar system. Process Biochemistry. 2012, 47: 742-748
[28] Liu Zhifeng, Zeng Zhuotong, Zeng Guangming, Li Jianbing, Zhong Hua, Yuan Xingzhong, Liu Yang, Zhang Jiachao, Chen Ming, Liu Yuanyuan, Xie Gengxin. Influence of rhamnolipids and Triton X-100 on the adsorption of phenol by Penicillium simplicissimum and the association with cell surface properties. Bioresource Technology. 2012, 110: 468-473
[27] Liu Zhifeng, Zeng Guangming, Zhong Hua, Yuan Xingzhong, Fu Haiyan, Zhou Meifang, Ma Xiaoling, Li Hui, Li Jianbing. Effect of dirhamnolipid on the removal of phenol catalyzed by laccase in aqueous solution. World Journal of Microbiology and Biotechnology. 2012, 28: 175-181

2011年
[26] Liu Zhifeng, Zeng Guangming, Zhong Hua, Yuan Xingzhong, Jiang Lili, Fu Haiyan, Ma Xiaoling, Zhang Jiachao. Effect of saponins on cell surface properties of Penicillium simplicissimum: Performance on adsorption of cadmium(II). Colloids and Surfaces B: Biointerfaces. 2011, 86(2): 364-369
[25] Liang Yunshan, Yuan Xingzhong, Zeng Gguangming, Zhong Hua, Li Hui, Wang Weiwei. Effects of surfactants on enzyme-containing reversed micellar system. Science China (Chemistry). 2011, 54(5): 715-723
[24] Zeng Guangming, Liu Zhifeng, Zhong Hua, Li Jianbing, Yuan Xingzhong, Fu Haiyan, Ding Ying, Wang Jing and Zhou Meifang. Effect of monorhamnolipid on the degradation of n-hexadecane by Candida tropicalis and the association with cell surface properties. Applied Microbiology and Biotechnology. 2011, 90(3): 1155-1161
[23] Zhou Meifang,  Yuan Xingzhong, Zhong Hua, Liu Zhifeng, Li Hui, Jiang Lili and Zeng Guangming. Effect of biosurfactants on laccase production and phenol biodegradation in solid-state fermentation. Applied Biochemistry and Biotechnology, 2011, 164(1): 103-114
[22] 欧阳建新, 施周, 崔凯龙, 钟华, 梁运姗. 微生物复合菌剂对污泥好氧堆肥过程的影响. 中国环境科学, 2011, 31(2): 253-258

2010年
[21] Liu Zhifeng, Zeng Guangming, Zhong Hua, Fu Haiyan, Liu Xiaolan. Production and characterization of biosurfactant from Bacillus subtilis CCTCC AB93108. Journal of Central South University of Technology. 2010, 17(3): 516-521
[20] Liu Zhifeng, Zeng Guangming, Wang Jing, Zhong Hua, Ding Ying, Yuan Xingzhong. Effects of monorhamnolipid and Tween 80 on the degradation of phenol by Candida tropicalis. Process Biochemistry, 2010, 45(5): 805-809
[19] Liang Yunshan, Yuan Xingzhong , Zeng Guangming, Hu Chenlu, Zhong Hua, Huang Danlian, Tang Lin, Zhao Jiajia. Biodelignification of rice straw by Phanerochaete chrysosporium in the presence of dirhamnolipid. Biodegradation, 2010, 21(4): 615–624
[18] 丁莹, 袁兴中, 曾光明, 刘智峰, 钟华, 王静. 表面活性剂对热带假丝酵母降解苯酚的影响. 环境科学, 2010, 31(4): 1047-1052

2009年
[17] 王静, 曾光明, 刘智峰, 袁兴中, 钟 华. 表面活性剂对热带假丝酵母降解十六烷的影响. 中国环境科学, 2009, 29(8): 822-827

2008年
[16] Zhong Hua, Zeng Guangming, Liu Jianxiao, Xu Xiangmin, Yuan Xingzhong, Fu Haiyan, Huang Guohe, Liu Zhifeng and Ding Ying. Adsorption of monorhamnolipid and dirhamnolipid on two pseudomonas aeruginosa strains and the effect on cell surface hydrophobicity. Applied Microbiology and Biotechnology, 2008, 79(4): 671-677
[15] Liu Xiaolan, Zeng Guangming, Tang Lin, Zhong Hua, Wang Renyou, Fu Haiyan, Liu Zhifeng, Huang Hongli, Zhang Jiachao. Effects of dirhamnolipid and SDS on enzyme production from Phanerochaete chrysosporium in submerged fermentation. Process Biochemistry, 2008, 43(11): 1300-1303

2007年
[14] Zhong Hua, Zeng Guangming, Yuan Xingzhong, Fu Haiyan, Huang Guohe, and Ren Fangyi. Adsorption of dirhamnolipid on four microorganisms and the effect on cell surface hydrophobicity. Applied Microbiology and Biotechnology, 2007, 77(2): 447-455
[13] Fu Haiyan, Zeng Guangming, Zhong Hua, Yuan Xingzhong, Huang Guohe. Co-degradation with glucose of four surfactants, CTAB, Triton X-100, SDS and rhamnolipid. Biodegradation, 2007, 18(3): 303-310
[12] Fu Haiyan, Zeng Guangming, Zhong Hua, Yuan Xingzhong, Wang Wei, Huang Guohe, Li Jianbing. Effects of rhamnolipid on degradation of granular organic substrate from kitchen waste by a Pseudomonas aeruginosa strain. Colloids and Surfaces B: Biointerfaces, 2007, 58(2): 91–97
[11] Yuan Xingzhong, Ren Fangyi, Zeng Guangming, Zhong Hua, Fu Haiyan, Liu Jia and Xu Xinmiao. Adsorption of surfactants on a Pseudomonas aeruginosa strain and the effect on cell surface lypohydrophilic property. Applied Microbiology and Biotechnology, 2007, 76(5): 1189-1198

2006年
[10] 钟华, 曾光明, 黄国和, 傅海燕. 生物表面活性剂对土壤中微生物降解疏水性有机物的作用机制. 高技术通讯, 2006, 16(3): 325-330
[9] 王伟,曾光明,钟 华,傅海燕. 腐殖质对堆肥中高效降解菌的吸附与传输影响. 中国环境科学, 2006, 26(5): 528-531
[8] 卢国满, 刘红玉, 曾光明, 钟华, 时进钢, 张林达. 生物表面活性剂产生菌犁头霉菌(Absidia orchidis)的筛选及发酵条件优化. 环境科学学报, 2006, 26(9): 1426-1432

2005年及之前
[7] Zeng Guangming, Zhong Hua, Huang Guohe, Fu Haiyan. Physicochemical and microbiological effect of biosurfactant on the remediation of HOC-contaminated soil. Progress in Natural Science, 2005, 15(7): 577-585
[6] 钟华, 曾光明, 黄国和, 傅海燕, 王伟. 鼠李糖脂对铜绿假单胞菌降解颗粒有机质的影响. 中国环境科学, 2005, 26(2): 201-205
[5] 王伟, 曾光明, 黄国和, 钟华, 傅海燕. 鼠李糖脂对铜绿假单胞菌在堆肥颗粒介质中吸附与传输影响的初步研究. 环境科学学报, 2005, 25(7): 965-970
[4] 傅海燕, 曾光明, 袁兴中, 黄国和, 钟华, 戴芳, 傅木星. 生物表面活性剂对堆肥中含烃有机质降解过程的影响. 高技术通讯, 2005, 15(9): 96-100
[3] Fu Haiyan, Zeng Guangming, Huang Guohe, Yuan Xingzhong, Zhong Hua, Meng Youting. Isolating biosurfactant-producing bacteria from composting and their prospective application in composting. Transactions of Nonferrous Metals Society of China, 2004, 14(1): 131-134
[2] 傅海燕, 曾光明, 黄国和, 袁兴中, 钟 华, 孟佑婷. 堆肥过程中产生生物表面活性剂的细菌的筛选. 环境科学学报, 2004, 24(5): 936-938
[1] Zhong Hua, Zeng Guangming, Huang Guohe, Yuan Xingzhong, Fu Haiyan. Effect of rhamnolipid broth on vegetable substrate biodegradation process. In: Energy&Environment——A world of challenge and opportunities proceedings of the enerenv’2003 conference, Changsha, China. Beijing&New York, Science Press, 2003: 841-848

         




研究方向: 自然多孔介质中污染物的运移与转化,受污染水环境和土壤的修复方法与技术,水处理与水污染控制

联系方式: 1. 湖南大学环境馆西栋308;Tel(o):+86-731-88664182;Fax:+86-731-88823701;Email:zhonghua@hnu.edu.cn
2. 武汉大学水利水电学院农水楼320;Tel(o)/Fax: +86-27-68772275;Email: zhonghua21cn@126.com


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