公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
---|---|---|---|---|---|---|
2015 | Formation of bacterial aerobic granules: Role of propionate | Wan C.; Chen S.; Wen L.; Lee D.-J. ; Liu X. | Bioresource Technology | 43 | 41 | |
2014 | Formation of filamentous aerobic granules: role of pH and mechanism | Wan C.; Yang X.; Lee D.-J. ; Zhang Q.; Li J.; Liu X. | Applied Microbiology and Biotechnology | 44 | 38 | |
2013 | Freezing of aerobic granules for storage and subsequent recovery | Lv Y.; Wan C.; Liu X.; Zhang Y.; Lee D.-J. ; Tay J.-H. | Journal of the Taiwan Institute of Chemical Engineers | 28 | 24 | |
2014 | Fungi aerobic granules and use of Fe(III)-treated granules for biosorption of antimony(V) | Wan C.; Wang L.; Lee D.-J. ; Zhang Q.; Li J.; Liu X. | Journal of the Taiwan Institute of Chemical Engineers | 24 | 20 | |
2012 | Improved volatile fatty acids production from proteins of sewage sludge with anthraquinone-2,6-disulfonate (AQDS) under anaerobic condition | Yang X.; Du M.; Lee D.-J. ; Wan C.; Zheng L.; Wan F. | Bioresource Technology | 39 | 35 | |
2014 | Influence of hydraulic retention time on partial nitrification of continuous-flow aerobic granular-sludge reactor | Wan C.; Yang X.; Lee D.-J. ; Sun S.; Liu X.; Zhang P. | Environmental Technology (United Kingdom) | 15 | 12 | |
2017 | Influence of operational conditions on the stability of aerobic granules from the perspective of quorum sensing | Zhang C.; Sun S.; Liu X.; Wan C.; Lee D.-J. | Environmental Science and Pollution Research | 10 | 14 | |
2014 | Long-term storage of aerobic granules in liquid media: Viable but non-culturable status | Wan C.; Zhang Q.; Lee D.-J. ; Wang Y.; Li J. | Bioresource Technology | 38 | 28 | |
2014 | Microbial communities of aerobic granules: Granulation mechanisms | Lv Y.; Wan C.; Lee D.-J. ; Liu X.; Tay J.-H. | Bioresource Technology | 157 | 138 | |
2016 | Microstructural strength deterioration of aerobic granule sludge under organic loading swap | Wan C.; Shen Y.; Chen S.; Liu X.; Liu G.; Lai J.-Y.; Lee D.-J. | Bioresource Technology | 19 | 13 | |
2014 | Partial nitrification of wastewaters with high NaCl concentrations by aerobic granules in continuous-flow reactor | Wan C.; Yang X.; Lee D.-J. ; Liu X.; Sun S.; Chen C. | Bioresource Technology | 72 | 63 | |
2014 | Partial nitrification using aerobic granule continuous-flow reactor: Operations and microbial community | Wan C.; Yang X.; Lee D.-J. ; Liu X.; Sun S. | Journal of the Taiwan Institute of Chemical Engineers | 22 | 19 | |
2013 | Partial nitrification using aerobic granules in continuous-flow reactor: Rapid startup | Wan C.; Sun S.; Lee D.-J. ; Liu X.; Wang L.; Yang X.; Pan X. | Bioresource Technology | 66 | 52 | |
2018 | Polyhydroxyalkanoates (PHA) production from phenol in an acclimated consortium: Batch study and impacts of operational conditions | Zhang Y.; Wusiman A.; Liu X.; Wan C.; Lee D.-J. ; Tay J. | Journal of Biotechnology | 18 | 16 | |
2018 | Recovery of dehydrated aerobic granules: A comparison | Lv Y.; Wan C.; Lee D.-J. ; Liu X.; Zhang Y.; Tay J.-H. | Bioresource Technology | 11 | 7 | |
2016 | The role of autoinducer-2 in aerobic granulation using alternating feed loadings strategy | Sun S.; Liu X.; Ma B.; Wan C.; Lee D.-J. | Bioresource Technology | 37 | 29 | |
2014 | Saline storage of aerobic granules and subsequent reactivation | Wan C.; Lee D.-J. ; Yang X.; Wang Y.; Lin L. | Bioresource Technology | 19 | 17 | |
2013 | Two-stage soil infiltration treatment system for treating ammonium wastewaters of low COD/TN ratios | Lei Z.; Wu T.; Zhang Y.; Liu X.; Wan C.; Lee D.-J. ; Tay J.-H. | Bioresource Technology | 19 | 16 | |
2016 | Understanding of aerobic granulation enhanced by starvation in the perspective of quorum sensing | Liu X.; Sun S.; Ma B.; Zhang C.; Wan C.; Lee D.-J. | Applied Microbiology and Biotechnology | 47 | 42 | |
2014 | Use of aerobic granules for treating synthetic high-strength ammonium wastewaters | Yu X.; Wan C.; Lei Z.; Liu X.; Zhang Y.; Tay J.H.; Lee D.-J. | Environmental Technology (United Kingdom) | 18 | 17 |