王小亻毛

ation ation itrogen

男,清華大學 飲用水安全研究所,副高級職稱

教育背景

1999.9-2004.7 清華大學環境科學與工程系,獲工學博士學位
1994.9-1999.7 清華大學環境科學與工程系,獲工學學士學位

工作履歷

2004.8-2006.9 香港大學土木工程系,研究助理
2006.10-2009.8 澳大利亞新南威爾斯大學土木與環境學院,研究助理
2009.8-2011.11 香港大學土木工程系,博士後/研究助理教授
2011.11-現在 清華大學環境學院,副教授

研究領域

膜技術用於水和廢水處理
高級氧化技術

學術成果

發表論文

1. Wang XM, Li XY, Waite TD. Quantification of solid pressure in the concentration polarization (CP) layer of colloidal particles and its impact on ultrafiltration. Journal of Colloid and Interface Science, 358: 290-300, 2011.
2. Sun FY, Wang XM, Li XY. Change in the fouling propensity of sludge in membrane bioreactors (MBR) in relation to the accumulation of biopolymer clusters. Bioresource Technology, 102: 4718-4725, 2011.
3. Sun FY, Wang XM, Li XY. Effect of biopolymer clusters on the fouling property of sludge from a membrane bioreactor (MBR) and its control by ozonation. Process Biochemistry, 46, 162-167, 2011.
4. Wang XM, Li XY, Shih K. In situ embedment and growth of anhydrous and hydrated aluminum oxide particles on polyvinylidene fluoride (PVDF) membranes. Journal of Membrane Science, 368, 134-143, 2011.
5. Wang XM, Waite TD. Iron speciation and iron species transformation in activated sludge membrane bioreactors. Water Research, 44: 3511-3521, 2010.
6. Chen W, Sun FY, Wang XM, Li XY. Membrane bioreactor for an innovative biological nitrogen removal process. Water Science and Technology, 61: 671-676, 2010.
7. Wang XM, Waite TD. Role of gelling soluble and colloidal microbial products in membrane fouling. Environmental Science & Technology, 43: 9341-9347, 2009.
8. Xiao K, Wang XM, Huang X, Waite TD, Wen XH. Analysis of polysaccharide, protein and humic acid retention by microfiltration membranes using Thomas’ dynamic adsorption model. Journal of Membrane Science, 342: 22-34, 2009.
9. Wang XM, Waite TD. Retention of soluble microbial products in submerged membrane bioreactors. Desalination and Water Treatment-Science and Engineering, 6: 131-137, 2009.
10. Sun FY, Wang XM and Li XY. Visualisation and characterisation of biopolymer clusters in a submerged membrane bioreactor. Journal of Membrane Science, 325: 691-697, 2008.
11. Wang XM, Waite TD. Impact of gel layer formation on colloid retention in membrane filtration processes. Journal of Membrane Science, 325: 486-494, 2008.
12. Wang XM, Waite TD. Gel layer formation and hollow fiber membrane filterability of polysaccharide dispersions. Journal of Membrane Science, 322: 204-213, 2008.
13. Kovalsky P, Wang XM, Bushell G, Waite TD. Application of local material properties to prediction of constant flux filtration behaviour of compressible matter. Journal of Membrane Science, 318: 191-200, 2008.
14. Wang XM, Kovalsky P, Waite TD. Multiphase flow models in quantifying constant pressure dead-end filtration and subsequent cake compression - 2. Concentrated slurry filtration and cake compression. Journal of Membrane Science, 308: 44-53, 2008.
15. Wang XM, Chang S, Kovalsky P, Waite TD. Multiphase flow models in quantifying constant pressure dead-end filtration and subsequent cake compression - 1. Dilute slurry filtration. Journal of Membrane Science, 308: 35-43, 2008.
16. Wang XM and Li XY. Accumulation of biopolymer clusters in a submerged membrane bioreactor and its effect on membrane fouling. Water Research, 42: 855-862, 2008.
17. Huang X, Wang XM. Toxicity change patterns and its mechanism during the degradation of nitrogen-heterocyclic compounds by O3/UV. Chemosphere, 69: 747-754, 2007.
18. Wang XM, Li XY, Huang X. Membrane fouling in a submerged membrane bioreactor (SMBR): characterisation of the sludge cake and its high filtration resistance. Separation and Purification Technology, 52: 439-445, 2007.
19. Li XY and Wang XM. Modelling of membrane fouling in a submerged membrane bioreactor. Journal of Membrane Science, 278: 151-161, 2006.
20. Wang XM, Huang X, Zuo CY, Hu HY. Kinetics of quinoline degradation by O3/UV in aqueous phase. Chemosphere, 55: 733-741, 2004.
21. Meng YB, Huang X, Wu YX, Wang XM, Qian Y. Kinetic study and modeling on photocatalytic degradation of para-chlorobenzoate at different light intensities. Environmental Pollution, 117: 307-313, 2002.

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