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| Institute | Department of Environmental Science and Engineering |  | | Research Area | • Anaerobic digestion of organic solid wastes
• Bioelectrochemical system for wastewater treatment • Municipal solid waste management and resource recovery | | Contact Info. | xusy@usst.edu.cn |
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| | Education |
| | Bachelor | Environmental Engineering, 2006, Wuhan University | | M.Phil. | Environmental Engineering, 2009, Tongji University | | Ph.D. | Environmental Science, 2012, Hong Kong Baptist University |
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| | Professional Affiliations |
| | Environmental Technology, Editorial Board Member |
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| | Books and Monographs |
| | 1. Xu S.Y. , He H.F., Luo L.W., Status and prospects of municipal solid waste to energy technologies in China, in: Recycling of Solid Waste for Biofuels and Biochemicals, O.P. Kartik, K. and Heimann, S.S. Muthu (Eds), Springer Singapore, 2016.8.22, ISSN 2345-7651, ISBN 978-981-10-0150-5. Environmental Footprints and Eco-design of Products and Processes | | 2. Xu S.Y., Luo L.W., Selvam A., Wong, J.W.C., Strategies to increase energy recovery from phase-separated anaerobic digestion of organic solid wastes, in: Current Developments in Biotechnology and Bioengineering: Solid Waste Management, Pandey, A., Wong, J.W.C., and Tyagi, R.D. (Eds), Elsevier, 2016.9.30, ISBN 0444-6366-41. ISBN 978-0-444-63664-5(eprint) |
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| | Journal Publications |
| | 1. Zhang Y.C., Xu S.Y.*, Cui M., Wong J., Effects of different thermal pretreatments on the biodegradability and bioaccessibility of sewage sludge. Waste Management, 2019, 94, 68-76. | | 2. Xu S.Y.*, Zhang Y.C., Luo L.W., Liu H.B.. Startup performance of microbial electrolysis cell assisted anaerobic digester (MEC-AD) with pre-acclimated activated carbon, Bioresource Technology Reports, 2019, 5:91-98. | | 3. Liu H.* Chen Z, Guan Y, Xu S.Y.* Role and application of iron in water treatment for nitrogen removal: A review. Chemosphere, 2018, 204: 51-62. | | 4. Xu S.Y.*, Han R.Q., Zhang Y.C., He C.Q., Liu H.B., Differentiated stimulating effects of activated carbon on methanogenic degradation of acetate, propionate and butyrate, Waste Management, 2018, 76:394-403. | | 5. Luo L.W.a, Xu S.Y.*, Jin Y.Q., Han R.Q., Liu H.B., Lü F., Evaluation of methanogenic microbial electrolysis cells under closed/open circuit operations, Environmental Technology. 2018. 39(6): 739-748. | | 6. He H.F., Xu S.Y.*, Han R.Q., Wang Q.C. Nutrient sequestration from wastewater by using zeolite Na-P1 synthesized from coal fly ash, Environmental Technology. 2017, 38(8): 1022-1029. | | 7. Wong, J. Xu, SY, Karthikeyan, OP, Selected papers from International conference on Solid Waste- Knowledge Transfer for Sustainable Resource Management (ICSWHK2015), 19-23 May 2015, Hong Kong Convention and Exhibition Centre, Hong Kong SAR, Bioresource Technology, 217: 1-2 (Editorial material) | | 8. Luo L.W., Xu S.Y.*, Selvam A., Wong J.W.C. (2016). Assistant role of bioelectrode on methanogenic reactor under ammonia stress. Bioresource Technology, 217: 72-81 | | 9. Xu S.Y.*, He C.Q., Luo L.W., Lü F., He P.J., Cui L.F., Comparing activated carbon of different particle sizes on enhancing methane generation in upflow anaerobic digester. Bioresource Technology 196:606-612, 2015. | | 10. Xu Suyun*, Luo Liwen, He Hongfu, Liu Hongbo, Cui Lifeng, Nitrogen and phosphate recovery from source-separated urine by dosing with magnesite and zeolite, Polish Journal of Environmental Studies. 2015, 24(5), 2269-2275. | | 11. Xu S.Y., Selvam A., Karthikeyan O. P., Wong J.W.C.*, Responses of microbial community and acidogenic intermediates to different water regimes in a hybrid solid anaerobic digestion system treating food waste. Bioresource Technology, 168, 49-58, 2014. | | 12. Xu S.Y., Karthikeyan O. P., Selvam A., Wong J.W.C.*, Microbial community distribution and extracellular enzyme activities in leach bed reactor treating food waste: Effect of different leachate recirculation practices. Bioresource Technology, 168, 41-48, 2014. | | 13. Xu S.Y., Selvam A., Wong J.W.C.*, Optimization of micro-aeration intensity in acidogenic reactor of a two-phase anaerobic digester treating food waste. Waste Management, 34(2), 363-369, 2014. | | 14. Yan B.Y., Selvam A., Xu S.Y., Wong J.W.C.*, A novel way to utilize hydrogen and carbon dioxide in acidogenic reactor through homoacetogenesis. Bioresource Technology, 159, 249-257, 2014. | | 15. Xu S.Y., Selvam A., Wong J.W.C.*, Effect of inoculums to substrate ratio on the hydrolysis and acidification of food waste in leach bed reactor. Bioresource Technology, 126, 425-430, 2012. | | 16. Xu S.Y., Lam H.P., Karthikeyan O.P., Wong J.W.C.*, Optimization of food waste hydrolysis in leach bed coupled with methanogenic reactor: Effect of pH and bulking agent. Bioresource Technology, 102(4), 3702-3708, 2011. | | 17. Xu S.Y., Zhang H., He P.J.*, Shao L.M., Leaching behaviour of bisphenol A from municipal solid waste under landfill environment, Environmental Technology, 32(11): 1269-1277, 2011. | | 18. Selvam A., Xu S.Y., Gu X.Y., Wong J.W.C.*, Food waste decomposition in leach bed reactor: Role of neutralizing solutions on the leachate quality. Bioresource Technology, 101(6): 1707-1714, 2010. | | 19. Xu S.Y., He P.J.*, Lü F., Li M., Shao L.M., Transformation of organic matters in fresh leachate during anaerobic degradation under long hydraulic retention time, Journal of Environmental Sciences-China, 21(9):1302-1308, 2009. |
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