黄浩勇
教育背景
1997 新加坡国立大学,土木工程,学士
1998 新加坡国立大学,环境工程,硕士
2002 美国加州大学伯克利分校,环境工程,博士
2003 美国耶鲁大学,化工与环境工程,博士后
工作经历
新加坡工程院院士
新加坡国立大学工程学部教务长
新加坡国立大学环境研究院院长
新加坡国立大学土木与环境工程系教授
胜科-国立大学重点实验室主任
国家外专局高端外国专家(2012-2015)
国际水协(IWA)资深会员 (Fellows)
Water Research副主编
Journal of water reuse and desalination 主编
研究领域
1. 废水处理、回用与数字化
2. 膜生物反应器处理技术
3. 正渗透和反渗透水处理技术
4. 微生物毒性检测技术
5. 工业废水处理技术
荣誉、奖项
2020年 Institute of Engineering Singapore Prestigious Engineering Achievement Awards
2020年 NUS Engineering Leadership Award
2016年National University of Singapore Engineering Researcher Award
2014年 International Water Association Asia Pacific Regional Project Innovation (PIA) Awards (Applied Research-Honour
Award) for the project “Development of Microbial Electrochemical Sensor for Heavy Metals and Cyanide Detection in
Used Water”
2009年 National University of Singapore Young Researcher Award
2008年 Singapore Youth Award
2007年 Singapore Young Scientist Award
2006年 International Water Association Young Water Professionals Award
代表性论文
[1] E. Liu, L. Y. Lee, S. L. Ong and H. Y. Ng*. 2020. “Treatment of industrial brine using Capacitive Deionization (CDI) towards zero liquid discharge–Challenges and optimization”, Water Res., 183, 116059.
[2] W. Song, L. Y. Lee, E. Liu, X. Shi, S. L. Ong and H. Y. Ng*. 2020. “Spatial variation of fouling behavior in high recovery nanofiltration for industrial reverse osmosis brine treatment towards zero liquid discharge”, J. Membr. Sci., 609, 118185.
[3] B. Xu, T. C. A. Ng, S. Huang and H. Y. Ng*. 2020. “Effect of quorum quenching on EPS and size-fractioned particles and organics in anaerobic membrane bioreactor for domestic wastewater treatment”, Water Res., 179, 115850.
[4] Z. Lyu, T. C. A. Ng, T. Tran-Duc, J. H. G. Lim, Q. Gu, L. Zhang, Z. Zhang, J. Ding, N. Phan-Thien, J. Wang and H. Y. Ng*. 2020. “3D-Printed Surface-Patterned Ceramic Membrane with Enhanced Performance in Crossflow Filtration”, J. Membr. Sci., 606, 118138.
[5] S. Huang, H. Zhang, T. C. A. Ng, B. Xu, X. Shi and H. Y. Ng*. 2020. “Analysis of N-Acy-L-homoserine lactones (AHLs) in wastewater treatment systems using SPE-LLE with LC-MS/MS”, Water Res., 177, 115756.
[6] B. Xu, T. C. A. Ng, S. Huang, X. Shi and H. Y. Ng*. 2020. “Feasibility of isolated novel facultative quorum quenching consortiums for fouling control in an AnMBR”, Water Res., 169, 115251.
[7] T. C. A. Ng, Z. Lyu, Q. Gu, L. Zhang, W. J. Poh, Z. Zhang, J. Wang and H. Y. Ng*. 2020. “Effect of gradient profile in ceramic membranes on filtration characteristics: Implications for membrane development”, J. Membr. Sci., 595, 117576.
[8] C. K. Pooi, V. Loka and H. Y. Ng*. 2019, “Treatment and hybrid modeling of domestic reverse osmosis concentrate using biological activated carbon”, Desalination, 468, 114047.
[9] G. U. Semblante, J. Z. Lee, L. Y. Lee, S. L. Ong and H. Y. Ng*. 2018. “Brine pre-treatment technologies for zero liquid discharge systems”, Desalination, 441, 96-111.
[10] Y.C. Tan, S. Kharkwal, K. K. W. Chew, R. Alwi, S. F. W. Mak and H. Y. Ng*. 2018. “Enhancing the robustness of microbial fuel cell sensor for continuous copper(II) detection against organic strength fluctuations by acetate and glucose addition”, Bioresour. Technol., 259, 357-364.
[11] X. Shi, T. S. Yeap, S. Huang, J. Chen and Ng HY*. 2018. “Pretreatment of saline antibiotic wastewater using marine microalga”, Bioresour. Technol., 258, 240-246.
[12] F. Chen, X. Yue, X. Shi, K. K. Ng and H. Y. Ng*. 2017. “Membrane fouling between a membrane bioreactor and a moving bed membrane bioreactor: Effects of solids retention time”, Chem. Eng. J., 309, 397-408.
[13] X. Zhang, J. Ma, C. Y. Tang, Z. Wang, H. Y. Ng and Z. Wu*. 2016. “Anti-biofouling Polyvinylidene Fluoride Membrane Modified by Quaternary Ammonium Compound: Direct Contact-Killing versus Induced Indirect Contact-Killing”, Environ. Sci. Technol., 50(10), 5086-5093.
[14] K. K. Ng, X. Shi, S. L. Ong, C.F. Lin and H. Y. Ng*. 2016. “An innovative of aerobic bio-entrapped salt marsh sediment membrane reactor for the treatment of high-saline pharmaceutical wastewater”, Chem. Eng. J., 295, 317-325.
[15] S. L. Low, S. L. Ong and H. Y. Ng*. 2016. “Characterization of Membrane Fouling in Submerged Ceramic Membrane Photobioreactors Fed with Effluent from Membrane Bioreactors”, Chem. Eng. J., 290, 91-102.
[16] X. Liu, S. L. Ong and H. Y. Ng*. 2016. “Fabrication of Mesh-Embedded Double-Skinned Substrate Membrane and Enhancement of Its Surface Hydrophilicity to Improve Anti- Fouling Performance of Resultant Thin-Film Composite Forward Osmosis Membrane”, J. Membr. Sci., 511, 40-53.
[17] C. Fu, X. Bi and H. Y. Ng*. 2016. “Effects of Bio-carriers on Membrane Fouling Mitigation in Moving Bed Membrane Bioreactor”, J. Membr. Sci., 499, 134-142.
[18] X. Yue, Y. K. K. Koh and H. Y. Ng*, 2015. “Effects of Dissolved Organic Matters (DOMs) on Membrane Fouling in Anaerobic Ceramic Membrane Bioreactors (AnCMBRs) Treating Domestic Wastewater”, Water Res., 86, 96-107.
[19] K. K. Ng, X. Shi and H. Y. Ng*. 2015. “Evaluation of System Performance and Microbial Communities of a Bioaugmented Anaerobic Membrane Bioreactor Treating Pharmaceutical Wastewater”, Water Res., 81, 311-324.
[20] X. Shi, K. K. Ng, X. Li and H. Y. Ng*. 2015. “Investigation of Intertidal Wetland Sediment as a Novel Inoculation Source for Anaerobic Saline Wastewater Treatment”, Environ. Sci. Technol., 49(10), 6231-6239.
[21] X. Liu and H. Y. Ng*. 2015. “Fabrication of Layered Silica-Polysulfone Mixed Matrix Substrate Membrane for Enhancing Performance of Thin-film Composite Forward Osmosis Membrane”, J. Membr. Sci., 481, 148-163.
[22] K. K. Ng, X. Shi, Y. Yao and H. Y. Ng*. 2014. “Bio-entrapped Membrane Reactor and Salt Marsh Sediment Membrane Bioreactor for the Treatment of Pharmaceutical Wastewater: Treatment Performance and Microbial Communities”, Bioresour. Technol., 171, 265-273.
[23] X. Liu and H. Y. Ng*. 2014. “Double-blade Casting Technique for Optimizing Substrate Membrane in Thin-film Composite Forward Osmosis Membrane Fabrication”, J. Membr. Sci., 469, 112-126.
[24] C. H. Tan and H. Y. Ng*. 2013. “Revised External and Internal Concentration Polarization Models to Improve Flux Prediction in Forward Osmosis Process”. Desalination, 309, 125-140.
[25] L. Jin, S. L. Ong and H. Y. Ng*. 2013. “Fouling control mechanism by suspended biofilm carrier addition in submerged ceramic membrane bioreactors (SCMBR)”. J. Membr. Sci., 427, 250-258.
[26] O. Lefebvre, C. M. Neculita, X. Yue and H. Y. Ng*. 2012. “Bioelectrochemical Treatment of Acid Mine Drainage Dominated with Iron”. J. Hazard. Mater., 241-242, 411-417.
[27] O. Lefebvre, Z. Tan, S. Kharkwal and H. Y. Ng*. 2012. “Effect of increasing anodic NaCl concentration on microbial fuel cell performance”. Bioresour. Technol., 112, 336-340.
[28] Z. Huang, S. L. Ong and H. Y. Ng*. 2011. “Submerged Anaerobic Membrane Bioreactor for Low-Strength Wastewater Treatment: Effect of HRT and SRT on Treatment Performance and Membrane Fouling”. Water Res., 45, 705-713.
[29] L. Jin, S. L. Ong and H. Y. Ng*. 2010. “Comparison of Treatment and Membrane Performances of Different Pore-Sized Submerged Ceramic Membrane Bioreactors”, Water Res., 44, 5907-5918.
[30] T. C. Ng and H. Y. Ng*. 2010 “Characterisation of Initial Fouling in Aerobic Submerged Membrane Bioreactors in relation to Physico-Chemical Characteristics under Different Flux Conditions”. Water Res., 44(7), 2336-2348.
[31] L. Y. Lee, H. Y. Ng*, S. L. Ong, J. Y. Hu, G. Tao, K. Kekre, B. Viswanath, W. Lay and H. Seah. 2009. “Integrated Pretreatment with Capacitive Deionization for Reverse Osmosis Reject Recovery from Water Reclamation Plant”. Water Res., 43(18), 4769-4777.
[32] L. Y. Lee, H. Y. Ng*, S. L. Ong, J. Y. Hu, G. Tao, K. Kekreb, B. Viswanathb, W. Lay and H. Seah. 2009. “Ozone-Biological Activated Carbon as a Pretreatment Process for Reverse Osmosis Brine Treatment and Recovery”. Water Res., 43(16), 3948-3955.
[33] J.-Y. An, S. Kim, Y. Chun, S. J. Lee, H. Y. Ng, I. S. Chang*. 2009. “Floating-Type Microbial Fuel Cell (FT-MFC) for Treating Organic-Contaminated Water”. Environ. Sci. Technol., 43(5), 1642-1647.
[34] T. W. Tan and H. Y. Ng*. 2008. “Influence of Mixed Liquor Recycle Ratio and Dissolved Oxygen on Performance of Pre-Denitrification Submerged Membrane Bioreactors”, Water Res., 42, 1122-1132.
[35] H. Y. Ng*, Wanling Tang and Wei S. Wong. 2006. “Performance of Forward (Direct) Osmosis Process: Membrane Structure and Transport Phenomenon”, Environ. Sci. Technol., 40 (7), 2408-2413.
[36] H. Y. Ng*, T. W. Tan and S. L. Ong. 2006. “Membrane Fouling of Pre-Denitrification Submerged Membrane Bioreactors: Impact of Mean Cell Residence Time and the Contributing Factors”, Environ. Sci. Technol., 40 (8), 2706-2713.
