陈光浩 [教授]
基本情况
陈光浩,浙江人,国家千人计划教授,中山大学环境科学与工程学院环境工程系教授、博士生导师。
陈光浩教授长期从事城市污水处理研究,多年来在相关顶级学术期刊发表学术论文100多篇(其中26篇发表在《Water Research》等环境学科一流刊物上),获美国、英国、新加坡发明专利共5项,获国家自然科学基金委、香港创新技术委员会、香港研资局、香港渠务署、香港机场管理局等机构研究项目近40余项,并取得了国际领先的丰硕学术成果,在该领域有较高的国际地位和影响。目前,陈教授还担任《Water Research》副主编及国家自然科学基金-香港RGC联合基金项目会评专家等学术职务。
陈光浩教授的城市污水厂剩余污泥减量新OSA工艺、含盐生活污水处理SANI工艺、低能耗-无堵塞膜生物反应器等均为原创性研究成果,不但带来了城市污水处理的基础理论和技术创新,而且具有非常广泛的应用前景。
联系方式
·广州市海珠区新港西路135号中山大学环境工程系,510275
·电话:+86-020-84112365 ;+86-020-39333209;
·传真:+86-020-84110692 ;+86-020-39333209。
教育经历
·1978年-1982年 毕业于浙江大学环境工程专业获得学士学位;
·1983年-1986年 毕业于日本京都大学环境与卫生工程学获得博士学位。
工作经历
·1990-1992日本Urshin株式会社环境工程顾问;
·1992-1994新加坡国立大学土木工程系(NUS)研究科学家;
·1995-2003香港科技大学土木工程系助理教授;
·2003-2009香港科技大学土木工程系副教授;
·2006-2007香港科技大学环境工程系主任;
·2009至今 香港科技大学土木工程系教授(终身教席);
·2007至今 中山大学环境工程系教授。
发明专利
·2004年 专利“Apparatus for treating wastewater”;
·2009年 专利“污水处理系统及其处理方法”;
·2009年 专利“含硫酸根废,污水处理系统及其处理方法”;
·2010年 专利“一种AB法城市污水处理工艺的污泥减量化”;
·2010年 专利“一种强化耗氧-沉淀-缺氧工艺污泥减量”。
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陈光浩
(香港科技大学终身教授)
陈光浩(Guang-Hao CHEN)博士,现任香港科技大学土木工程系终生教授、环境工程专业主任、环境工程研究生课程主任,浙江大学、中山大学客座教授,香港特区政府污水处理工程技术顾问
- 中文名
- 陈光浩
- 职 业
- 终生教授
- 主要成就
- 《Water Science & Technology》专辑主编
- 代表作品
- 《Water Science & Technology: Water Supply》
陈光浩(Guang-Hao CHEN)博士,现任香港科技大学土木工程系终生教授、环境工程专业主任、环境工程研究生课程主任,浙江大学、中山大学客座教授,香港特区政府污水处理工程技术顾问,国际水协(IWA)污泥处理专家委员会课题组成员,国际水协水力学会(IAHR)下水道联合专家委员会理事,《Water Research》副主编,《IWA Journal:AQUA》亚太区编委,《Water Science & Technology》专辑主编,《Water Science & Technology: Water Supply》专辑主编,《International Journal of Pollution and Environment》特邀主编,清华大学环境科学与技术学刊特邀编委。多年来出版学术专著/论文集12册,发表学术论文125篇,包括SCI论文51篇(其中26篇发表在《Water Research》等环境学科一流刊物上),EI论文5篇,获美国、英国、新加坡发明专利共3项,获日本政府、三菱公司、香港研资局、香港渠务署等研究项目近40项。
E-mail: ceghchen@ust.hk
Tel.: (852) 2358-8752
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Current Research Interests
Sustainable decentralized sewage treatment systems 可持续性非集中式城市污水处理新系统
Excess sludge minimized activated sludge processes 活性污泥法剩余污泥减量方法
Biofilm, denitrification and corrosion control in sewer 污水管道中污染物转化及生物膜
Micro-pollutant degradation in membrane bio-reactor (MBR ) and low-cost MBR system development 膜生物处理
Re-use of water treatment works sludge in sewage treatment works and phosphorus adsorption on aluminium hydroxide 自来水厂污泥在城市污水处理厂之利用及磷之吸附
Courses Taught
CIVL 142 Introduction of Environmental Science and Engineering
CIVL 242 Water and Wastewater Engineering
CIVL 344 Solid Waste Management
CIVL 345 Environmental Analysis of Aqueous Systems
CIVL 346 Process Design of Environmental Engineering Facilities
CIVL 542 Biological Waste Treatment
CIVL 543 Aquatic Chemistry
CIVL 544 Process Design of Water and Wastewater Treatment Systems
CIEM 548 Wastewater Treatment and Reuse
Publication (2003~)
Book/ Book Chapter/Journal Issue
G. H. Chen, J. C. Huang, C Shang, H. H. P Fang, and Y. Watanabe (2004). Editor of the Special Issue of "Creative Water and Wastewater Treatment Technologies for Densely Populated Urban Areas". Water Science and Technology: Water Supply. Vol., 04, No. 01, 166 pages.
X. H. Guan, G. H. Chen, and C. Shang (2004). ATR-FTIR and XPS study on the structure of complexes formed between simple organic acids and aluminium hydroxide. In: Young Researchers 2004 (ed by P Lens and R Stuetz), Water and Environmental Management Series, IWA publisher, 2004.
G. H. Chen, C. Shang, and X. R. Zhang (2006). Editor of the Special Issue of "Leading-edge Strategies and Technologies for Sustainable Urban Water Management". Water Science and Technology: Water Supply. Vol., 06, No. 06, 183 pages.
G. H. Chen. Water Reuse in Asia. In: International Survey of Water Reclamation and Ruse, edited by B. Jimemez and T. Asano, IWA publisher (in press).
G. H. Chen and J. H. Qu (2007). Editor of the Special Issue of "Research and Development of Environmental Science and Technology in China, International Journal of Pollution and Environment (in preparation).
Invited Overseas Conference/Workshop Presentations/Guest Lectures
G. H. Chen (2004). Novel approaches to reduce excess sludge in activated sludge processes. Hokkaido University Centre of Excellence (COE) Lectures on Environmental Biotechnology, Sapporo, Japan, July 07, 2004.
G. H. Chen and Chii Shang (2004). Comparison of performance of MBR in treating freshwater and seawater sewage and evaluation of virus rejection. Hokkaido University COE Workshop on Membrane Bioreactor, Sapporo, Japan, July 12, 2004.
D. H. W. Leung, K. R. Sharma, and G. H. Chen (2004). Effect of detached/re-suspended solids from sewer sediment on the sewage phase bacterial activity. Keynote presentation at IWA Sponsored International Symposium on Biotechnology for Environmental Pollution Control, Beijing, China, August 14-15, 2004.
G. H. Chen (2005). Applications of MBR/MF/RO in sewage reuse/recycle. Hokkaido University COE workshop on MBR, Sapporo, Japan, June 11, 2005.
G. H. Chen (2005). Pilot studies of membrane technology for effluent reuse. International Conference on Nanotechnologies and Advanced Materials. Hong Kong, August 8-10, 2005.
G. H. Chen (2006). Modelling of biotreatment-Theory and practice. Hokkaido University COE Lectures on Environmental Biotechnology, August 03, 2006.
G. H. Chen (2006). Reuse of alum sludge in sewage treatment and phosphorus/Nom adsorption on aluminum hydroxide, Hokkaido University COE Lectures on Environmental Biotechnology, August 03, 2006.
G. H. Chen (2006). Is biofilm formation the key player in bio-fouling of MBR? 1st IMECT, Sapporo, 18 August 2006, Japan.
Journal Papers
S. Saby, M. Djafer, and G. H. Chen (2003). Effect of low ORP in anoxic sludge zone on excess sludge production in an oxic-settling-anoxic activated sludge process (OSA process). Water Research, 37(1), pp.11-20.
Y. Chen, Y. Zhang, and G. H. Chen (2003). Appropriate conditions for maximizing catalytic reduction efficiency of nitrate into nitrogen gas in groundwater. Water Research, 37(10), pp. 2489-2495.
G. H. Chen, D. H. K. Leung and J. C. Huang (2003). Biofilm in the sediment phase of a sanitary gravity sewer. Water Research, 37(11), pp.2784-2788.
G. H. Chen, M. T. Wong, S. Okabe, and Y. Watanabe (2003). Dynamic response of nitrifying activated sludge batch cultures to increased chloride concentration. Water Research, 37(13), pp.3125-3135.
G. H. Chen, K. J. An., S. Saby, E. Brois, and M. Djafer (2003). Possible cause of excess sludge reduction in an oxic-settling-anoxic activated sludge process (OSA Process). Water Research, 37(16), pp.3843-3864.
X. H. Guan, Shang C, S. M. Yu, and G. H. Chen (2004). Exploratory study on reuse of water treatment works sludge to enhance primary sewage treatment. Water Science and Technology: Water Supply, 04(1), pp.159-164.
G. H. Chen and M. T. Wong (2004). Impact of increased chloride concentration to nitrifying activated sludge process. Journal of Environmental Engineering, ASCE,130(2), pp.116-125.
Y. Chen, Y. Zhang, G. H. Chen, and K. R. Sharma (2004). Hydrogen-based catalytic ceramic membrane for removing nitrate in groundwater. Environmental Technology, 25, pp.227-234.
X. H. Guan, Q. Liu, G. H. Chen, and C. Shang (2005). Reuse of water treatment works sludge to enhance particulate pollutant removal from sewage. Water Research, 39(15), pp.3433-3440.
X. H. Guan, Q. Liu, G. H. Chen, and C. Shang (2005). Surface complexation of condensed phosphate to aluminium hydroxide: An ART-FTIR spectroscopic investigation. Journal of Colloid and Interface Science, 289(2), pp.319-327.
M. H. Wong, C. Shang and G. H. Chen (2005). Bacteriophage MS-2 Removal by Submerged Membrane Bioreactor. Water Research, 39 (17), pp.4211-4219.
D. H. W. Leung, G. H. Chen and K. R. Sharma (2005). Effect of attached/re-suspended solids from sewer sediment on sewage phase bacterial activity. Water Science and Technology, 52(3), pp.147-152.
X. H. Guan, G. H. Chen, C. Shang, and J. Zhu (2005). ATR-FTIR Investigation on the Complexation of Myo-inositol Hexaphosphate with Aluminum Hydroxide. Journal of Colloid and Interface Science, 293(2), pp. 296-302.
X. H. Guan, G. H. Chen, and C. Shang (2006). Competitive Adsorption of organic matter with phosphate on aluminum hydroxide. Journal of Colloid and Interface Science, 296(1), pp.51-58.
G. N. Lau, K. R. Sharma, G. H. Chen and M. C. M. van Loosdrecht (2006). Integration of sulfate reduction, autotrophic denitrification and nitrification to achieve low-cost excess sludge minimization for Hong Kong sewage. Water Science and Technology, 53(3), pp.227-235.
H. L. S. Tam, D. T. W. Tang, K. R. Sharma and G. H. Chen (2006). A pilot study of a membrane bio-reactor in treating fresh water sewage and saline sewage in Hong Kong (invited paper). Separation Science and Technology, 41 (7), pp.1253-1264.
S. Y. C. Lee, L. M. Wang, Y. Xue, N. Ge, X. Yang, and G. H. Chen (2006). Natural estrogens in the surface water of Shenzhen and the sewage of Hong Kong. Human and Ecological Risk Assessment, 12(2), pp.301-312
X. H. Guan, G. H. Chen, and C. Shang (2006). Combining kinetic investigation with surface spectroscopic examination to study the role of aromatic carboxyl groups in NOM adsorption by aluminum hydroxide. Journal of Colloid and Interface Science, 301, pp.419-427.
X. H. Guan, C. Shang and G. H. Chen (2006). ATR-FTIR investigation on the role of phenolic groups in the interaction of NOM with aluminum hydroxide. Chemosphere, 65, pp.2074-2081.
H. L. S. Tam, D. T. W. Tang, K R Sharma and G. H. Chen (2006). A pilot study for sewage reclamation and reuse with MBR/RO and MF/RO systems. Desalination. 202 (1-3), 106-113.
X. H. Guan, G. H. Chen, and C. Shang (2006). Role of carboxylic and phenolic groups in NOM adsorption on minerals: a review. Water Science and Technology: Water Supply. 6(6), 155-164.
G. H. Chen and S. K. Pang (2006). Development of a low-cost dynamic filter immersed in activated sludge system. Water Science and Technology: Water Supply. 6(6), pp.111-117.
An. K. J. and G. H. Chen. A COD balance analysis of an oxic-settling-anaerobic activated sludge process. Journal of Environmental Engineering, ASCE (attentively accepted).
X. H. Guan, G. H. Chen, and C. Shang. Competitive adsorption of phosphorus on aluminum hydroxide. Water Science and Technology (in press).
International Conference Papers (Referred oral presentations only)
X. H. Guan, C. Shang, and G H Chen (2003). Competitive adsorption of reactive, condensed, and organic phosphate on aluminum hydroxide. IWA-ASPAC 2003 Conference, October 13-18, 2003, The Philippines.
D. H. W Leung and G H Chen (2004). Effect of detached/re-suspended solids from sewer biofilm on the oxygen uptake of sewage phase in a sewer. IWA 1st Asian Junior Scientist Workshop on Sewer Network Processes & Urban Drainage, 7-10 February 2004, Malacca, Malaysia.
X. H. Guan, G. H. Chen, and C. Shang (2004). ATR-FTIR and XPS studies on structure of complexes formed between simple organic acids and aluminum hydroxide. The 2nd Young Researchers Conference, May 3-4 2004, Wageningen, The Netherlands.
H M Wong, C Shang, and G. H. Chen (2004). Factors affecting virus removal in a membrane bioreactor. IWA Specialized Conference on Water Environment Membrane Technology (WEMT 2004), June 7-10 2004, Seoul, Korea.
D H. W Leung, G. H. Chen and K R Sharma (2004). Effect of attached/re-suspended solids from sewer sediment on sewage phase bacterial activity. The 4th IWA Specialized Conference on Sewer Processes and Networks. November 22-24, 2004, Funchal, Portugal.
X. H. Guan, G. H. Chen, and C. Shang (2004). Competitive adsorption of phosphorus on aluminum hydroxide. The 4th World Water Congress, 19-24 September 2004, Marrakech, Morocco.
H L S Tam, D T W Tang, G. H. Chen, C Shang, K M Ho and K R Sharma (2004). A Pilot study on the performance of an membrane bio-reactor in treating fresh water sewage and saline sewage in Hong Kong. The 4th World Water Congress, 19-24 September 2004, Marrakech, Morocco.
X. H. Guan, G. H. Chen, and C. Shang (2004). Spectroscopic investigation of the interaction of pyromellitate with aluminum hydroxide. The 228th American Chemistry Association National Meeting, August, Philadelphia, USA.
H M Wong, C Shang, and G. H. Chen (2004).Membrane bioreactor for wastewater treatment and reuse: virus rejection. European Symposium on Environmental Biotechnology, April, Oostende, Belgium.
H W D Leung, G. H. Chen, T. Ito, S Okabe, and Y. Watanabe (2004). Comparison of community structure of sulfate-reducing bacteria and their roles in carbon mineralization in sewer biofilms growing under aerophilic and microaerophilic conditions. IWA Specialized International Conference on Biofilms 2004, 24-16 October, 2004, Las Vegas, Nevada, USA.
G. N. Lau, K. R. Sharma, G. H. Chen and M. C. M. van Loosdrecht (2005). Integration of sulfate reduction, autotrophic denitrification and nitrification to achieve low-cost excess sludge minimization for Hong Kong sewage. The 3rd IWA Leading-edge Conference on Water and Wastewater Treatment Technologies, 6-8 June 2005, Sapporo, Japan (orally presented at the Workshop on Sludge Management).
A. Lau, D. H. W. Leung, and G. H. Chen (2005). Study of Hydrolysis of Particulate Organics in Gravity Sewer. 1st IWA-ASPIRE Conference, 10-15 July, 2005, Singapore.
G. N. Lau, K. R. Sharma, and G. H. Chen (2005). Autotrophic denitrification utilizing dissolved sulfides produced during anaerobic treatment of sulfate containing wastewater. 1st IWA-ASPIRE Conference, 10-15 July, 2005, Singapore.
H. L. S. Tam, D. T. W. Tang, K R Sharma and G. H. Chen (2005). A pilot study for sewage reclamation and reuse with MBR/RO and MF/RO systems. The 5th International Symposium on Wastewater Reclamation and Reuse Sustainability, 8-11 November, 2005, Korea.
F. Jiang, D. H. W. Leung, S. Y. Li, and G. H. Chen (2006). Use of genetic algorithm as an efficient tool to calibrate ASM3-based sewer process model. The 2nd IWA Specialized International Conference on Sewer Operation and Maintenance (SOM 06), October 24-28, 2006, Vienna, Austria.
Selected Professional Activities
International
Issue Editor of Water Science & Technology (2000)
Issue Editor of Water Science & Technology: Water Supply (2004, 2006)
Associate Editor of Water Research (2005-2009)
Editorial board member of IWA Journal of Water Supply: Research & Technology (AQUA) (2006~)
Task Committee Member of the IWA Sludge Management Specialist Group (2004~)
Management Committee Member of the IWA/IAHR Joint Working Group on Sewer Systems & Process (2004~)
Organizer and Chairman, IWA Sponsored International Symposium on Development of Innovative Water and Wastewater Treatment Technologies for the 21st Century, 8-10 October 1999, Hong Kong.
Organizer and Chairman, IWA Sponsored International Specialized Conference on Creative Water and Wastewater Treatment Technologies for Densely Populated Urban Areas, September 18-20 2002, Hong Kong.
Regional Organizing Committee Member of the 3rd IWA Leading-edge Conference on Water and Wastewater Treatment Technologies, 6-8 June 2005, Sapporo, Japan.
Organizing Committee Member of IWA Chemical Industries 2005, July 14 -16 2005, Tsukuba & Kashima, Japan.
Session Chairman, the 4th Japan-Netherlands Workshop on Integrated Water Quality Management”, October 9-11, 2000, Japan.
Session Chairman, the 1st IWA-ASPIRE conference, July 10-15, 2005, Singapore.
Organizing and Program Committees Member of the 2nd IWA Conference on Sewer Operation and Maintenance (SOM06), 26-28 October, 2006, Austria.
Director of the Croucher Foundation Advanced Study Institute: Leading-edge Strategies and Technologies for Sustainable Urban Water Management, September 16-20, 2006.
Director of the Croucher Foundation Advanced Study Institute: Sustainable Water Resources and Water Quality Management (tentative). 2007/2008.
Director of the Croucher Foundation Advanced Study Institute: New concepts and innovations towards Energy and Resources Reduction and Recovery in Wastewater Treatment (tentative). 2007/2008.
National and Local
Co-organizer, the 1st Forum of China Young Leading Scholars in Environmental Science & Engineering, June 19-22, 2001, Shenzhen.
Organizer of a special tailor-made training course on modelling biotreatment processes for the Drainage Services Department, January 18-20, 2005, Hong Kong.
Organizer of a half-day special seminar on Small Scale Sewage Treatment Technologies for the Drainage Services Department, 1999, Hong Kong.
Organizer of a one-day special workshop on Leading-edge Water and Wastewater Treatment Technologies and Effluent Reuse and Recycling Practices in Japan (with Professor Y. Watanabe) on September 07, 2005, Hong Kong.
Editorial Committee Member of Journal of Environmental Science and Engineering, Tsinghua University, China (2005~).
Editorial Committee Member of Frontiers of Environmental Science & Engineering in China-Selected Publications from Chinese Universities, an English journal published by the China Higher Education Press and distributed by Springer-Verlag publisher (2006~).
Organizer of a one-day special workshop with the IWA Hong Kong Chamber on Regulations, Technologies, and Risk Assessment in Wastewater Reclamation and Reuse, September 18, 2006, Hong Kong (with Professors T. Asano, G. Amy, S. Matsui, J. Rose).
Adjunct Professor of Zhejiang University (2002~).
Independent Director of EcoWater Co. (listed in Singapore) (2004-2006).
Independent Technical Checker to Mitsubishi Rayon Group (2003).
Consultant to the HKSAR Government.
Post-graduate Students Supervision at HKUST
3 PhD and 18 Master students have been graduated under my supervision/co-supervision. Currently supervising 6 Master and 4 PhD students.
Research Grant
Total research money acquired so far from HKRGC, DSD, ECF, HKUST, Croucher Foundation, and industries: ~13 M HK$.
污水处理“杀泥技术”由千人计划陈光浩全球首创
他是一名“千人计划”专家,他是国际水协会杰出会士,他在全球独创了SANI技术(SANI技术可有效节省污水处理过程中三分之一的能耗,还能减少90%产出的污泥),他是陈光浩。
在南沙,有一支由香港科技大学陈光浩教授带领的科研团队,在全球污水处理工业领域独创了SANI技术。目前这项“杀泥”技术已经在香港进入了产业化示范项目阶段,今年开始将争取与南沙区政府合作,在当地开展产业化项目,向全国推广这一项技术。
在港日均处理千吨污水
2008年至2010年:在香港东涌泵站处理实际含盐污水的中试阶段,陈光浩团队进行了连续稳定运行225天的现场中试。SANI工艺的污泥产率仅为0.64千克/日,实现了污泥减量90%。与传统活性污泥法工艺-污泥消化处理联用相比,SANI工艺可以节省能耗35%,减少温室气体排放36%。
2013年:“杀泥技术”获得了香港渠务局和创新及科技基金等合资近2460万元港币,开展了大型示范试验,每天平均处理高达一千吨污水,有效减少污泥产量达70%。另外,示范厂采用高效混凝-沉淀技术对生物处理单元进行后续处理,同时可实现污水中75%的总磷去除,所需体积仅为传统沉淀池的30%。
2014年:“杀泥技术”成为香港特区政府、香港科技大学大力推动的技术成果转化项目。
近年来,除了在香港,“杀泥技术”还取得了古巴、泰国、阿联酋等地的支持,在当地开展实验,获得了德国“国际海柏技术奖”、西班牙“世界智慧城市项目决赛奖”,及国际水协的多个奖项。
每周争取在南沙工作1日
今年,陈光浩将会把更多时间分给南沙团队。“争取每周来南沙工作至少1天。”目前,南沙团队的核心成员有8名,陈光浩将争取在3到5年内,把队伍扩大至30人以上,在这里完成内地版本的调试。
陈光浩科研团队选择在南沙完成
内地版本调试的理由
政策优势:“南沙距离香港很近,对珠三角有很强的辐射作用,再加上国家近期不断赋予的政策优势。这里是我们理想的司令部。我们在香港创新技术,在南沙完善技术,搭乘‘一带一路’的轨迹推向世界。”
陈光浩计划,下一步,他希望这支团队能在南沙注册公司,成立一个产学研官四者互动的平台,争取在2018年实现正式投产。
地理优势:由于“杀泥技术”目前必须和海水资源结合使用,因此内地沿海缺水地区成为第一片蓝海市场。“上海、大连、厦门、青岛……这16座沿海城市总人口达9200万人。以每人每天产生250升污水,及以传统的活性污泥工艺平均每处理一顿污水产生235克干污泥量计算,每年共产约200万吨的干污泥。若SANI工艺应用于这些城市的话,可以大幅度的降低这些污泥的处理过程,同时每年可以减少120万吨的二氧化碳排放。”
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| Guang-Hao CHEN |
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(陳光浩) |
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DEng , Kyoto University |
Chair Professor
Homepage: http://ceghchen.people.ust.hk |
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RESEARCH INTERESTS:
Novel biological wastewater treatment; new waste resource recovery; digitization of wastewater/sludge treatment; sewer network modelling and application; scale up engineering study.
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RESEARCH PROJECTS:
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Sustainable Sulfur conversion wastewater treatment processes – Woody Wu, Tianwei Hao, and Guang-Hao CHEN
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SANI process optimization, demonstration, and application –Demonstration - Woody Wu, Allen Leung, YW Ha, Bo Wang, and Guang-Hao CHEN
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Sludge odor control and new resource recovery – Tianwei Hao and Guang-Hao CHEN
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Scale-up of self-forming dynamic membrane bioreactor (SFMBR)– Dai Ji and Guang-Hao CHEN
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Total Municipal Organic Waste Management by integrating Food Waste Disposal And Sewage Treatment (MOW-FAST) - Guang-Hao CHEN, T Zhang (HKU), J. Wang (HKBU), and G. Ekama (UCT)
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SELECTED PUBLICATIONS:
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L. Chen, T.-H. Tsui, G. A. Ekama, H. R. Mackey, T. W. Hao, and G. H. Chen. (2018). Development of biochemical sulfide potential (BSP) test for sulfidogenic biotechnology application. Water Research, 135, pp.231-240.
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D. Guan, J. Dai, Y. Watanabe and G. H. Chen (2018). The Change of Physical Properties of Dynamic Layer and Its Correlation with Permeate Quality in Self-forming Dynamic Membrane Bio-reactor. Water Research, 140, 67-76.
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Li, X., Luo, J., Guo, G., Mackey, H. R., Hao, T., & Chen, G. H. (2017). Seawater-based wastewater accelerates development of aerobic granular sludge: a laboratory proof-of-concept. Water Research, 115, 210-219.
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Y. Y. Wei, J. Dai, H. R. Mcaky, and G. H. Chen (2017). The feasibility study of autotrophic denitrification with solid iron sludge produced for sulfide control. Water Research, 122, pp.226-233.
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Wu, D., Ekama, G. A., Chui, H. K., Wang, B., Cui, Y. X., Hao, T. W. & Chen, G. H. (2016). Large-scale demonstration of the sulfate reduction autotrophic denitrification nitrification integrated (SANI®) process in saline sewage treatment. Water Research, 100, 496-507.
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Tsui, T. W. Hao, and G. H. Chen (2016). A super high-rate sulfedogenic system for saline wastewater treatment. Water Research, 104, pp.147-155.
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Hao, T., Luo, J., Wei, L., Mackey, H. R., Liu, R., Morito, G. R., & Chen, G. H. (2015). Physicochemical and biological characterization of long-term operated sulfate reducing granular sludge in the SANI® process. Water Research, 71, 74-84.
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Hao, T. W., Xiang, P. Y., Mackey, H. R., Chi, K., Lu, H., Chui, H. K., & Chen, G. H. (2014). A review of biological sulfate conversions in wastewater treatment. Water Research, 65, 1-21.
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W. T. Tang, J. Dai, R. L. Liu, and G. H. Chen (2015). Microbial ureolysis in SUPR: kinetic study and reactor verification. Water Research, 87, pp.10-19.
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Luo, J., Hao, T., Wei, L., Mackey, H. R., Lin, Z., & Chen, G. H. (2014). Impact of influent COD/N ratio on disintegration of aerobic granular sludge. Water Research, 62, 127-135.
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Wu, D., Ekama, G. A., Wang, H. G., Wei, L., Lu, H., Chui, H. K., & Chen, G. H. (2014). Simultaneous nitrogen and phosphorus removal in the sulfur cycle-associated Enhanced Biological Phosphorus Removal (EBPR) process. Water Research, 49, 251-264.
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H. Lu, D. Wu, F. Jiang, G. A. Ekama, M. C. M., van Loosdrecht and G. H Chen (2012). The demonstration of a novel sulfur cycle-based wastewater treatment process: Sulfate reduction, autotrophic denitrification, and nitrification integrated (SANI®) biological nitrogen removal process. Biotechnology & Bioengineering, 109, pp.2778-2789.
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T. W. Hao, L. Wei, H. Lu, H. K. Chui, H. R. Mackey, M. C. M van Loosdrecht, and G. H. Chen (2013). Characterization of sulfate reducing granular sludge in the SANI process. Water Research, 47(19), pp.7042-7052.
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D. Wu, G. Ekama, H. Lu, H. K. Chui, W. T. Liu, D. Brdjonovic, M. C. M. van Loosdrecht and G. H. Chen (2013). A new biological phosprorus removal process in association of sulfur cycle. Water Research, 47(9), pp.3057-3069.
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Lu H., Ekama G. A, Wu D., van Loosdrecht M. C. M. and G. H. Chen (2012). SANI process realizes sustainable saline sewage treatment for saline water supply: steady-state model-based evaluation of pilot scale trial of the process. Water Research, 46(2), pp.475-490.
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H. Lu, D. Wu, F. Jiang, G. A. Ekama, M. C. M., van Loosdrecht and G. H Chen (2012). The demonstration of a novel sulfur cycle-based wastewater treatment process: Sulfate reduction, autotrophic denitrification, and nitrification integrated (SANI®) biological nitrogen removal process. Biotechnology & Bioengineering, 109, pp.2778-2789.
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R. W. K. Leung, D. C. H. Li, W. K. Yu, H. K. Chui, T. O. Lee, M. C. M. van Loosdrecht and G. H. Chen (2011).. Integration of seawater and grey water reuse to maximize alternative water resource for coastal Areas: The Case of the Hong Kong International Airport. Water Science & Technology, 65(3), pp.410-417.
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Wang, J., Lu, H., Chen, G. H., Lau, G. N., Tsang, W. L., & van Loosdrecht, M. C. (2009). A novel sulfate reduction, autotrophic denitrification, nitrification integrated (SANI) process for saline wastewater treatment. Water Research, 43(9), 2363-2372.
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F. Jiang, D. H. W. Leung, S. Y. Li, G. H. Chen, S. Okabe and M. C. M. van Loosdrecht (2009). A biofilm model for prediction of pollutant transformation in sewers. Water Research, 43(13), pp.3187-3198.
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H. L. S. Tam, D. T. W. Tang, K R Sharma and G. H. Chen (2006). A pilot study for wastewater reclamation and reuse with MBR/RO and MF/RO systems. Desalination. 202 (1-3), pp.106-113 (IF=3.756).
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Saby, S., Djafer, M., & Chen, G. H. (2003). Effect of low ORP in anoxic sludge zone on excess sludge production in oxic-settling-anoxic activated sludge process. Water Research, 37(1), 11-20.
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Chen, G. H., Wong, M. T., Okabe, S., & Watanabe, Y. (2003). Dynamic response of nitrifying activated sludge batch culture to increased chloride concentration. Water Research, 37(13), 3125-3135.
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Chen, G. H., An, K. J., Saby, S., Brois, E., & Djafer, M. (2003). Possible cause of excess sludge reduction in an oxic-settling-anaerobic activated sludge process (OSA process). Water Research, 37(16), 3855-3866.
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Chen, G. H., Mo, H. K., & Liu, Y. (2002). Utilization of a metabolic uncoupler, 3, 3′, 4′, 5-tetrachlorosalicylanilide (TCS) to reduce sludge growth in activated sludge culture. Water Research, 36(8), 2077-2083.
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Saby, S., Djafer, M., & Chen, G. H. (2002). Feasibility of using a chlorination step to reduce excess sludge in activated sludge process. Water Research, 36(3), 656-666.
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