Issue Date | Title | Author(s) | Source | scopus | WOS | Fulltext/Archive link |
---|---|---|---|---|---|---|
2008 | Biohydrogen production with anaerobic fluidized bed reactors-A comparison of biofilm-based and granule-based systems | Zhang Z.-P.; Show K.-Y.; Tay J.-H.; Liang D.T.; Lee D.-J. | International Journal of Hydrogen Energy | 145 | 125 | |
2014 | Biosorption of antimony(V) onto Fe(III)-treated aerobic granules | Wang L.; Wan C.; Lee D.-J. ; Liu X.; Zhang Y.; Chen X.F.; Tay J.-H. | Bioresource Technology | 37 | 28 | |
2015 | Biosorption of Sr(II) from aqueous solutions using aerobic granules: equilibrium and mechanisms | Wang L.; Liu X.; Chen X.-F.; Lee D.-J. ; Tay J.-H.; Zhang Y.; Wan C.-L. | Journal of Radioanalytical and Nuclear Chemistry | 15 | 15 | |
2008 | Characteristics of rapidly formed hydrogen-producing granules and biofilms | Zhang Z.-P.; Adav S.S.; Show K.-Y.; Tay J.-H.; Liang D.T.; Lee D.-J. ; Su A. | Biotechnology and Bioengineering | 47 | 42 | |
2004 | A comparison of ultrasound treatment on primary and secondary sludges | Mao T.; Hong S.-Y.; Show K.-Y.; Tay J.-H.; Lee D.-J. | Water Science and Technology | 70 | ||
2015 | A comprehensive comparison of bacterial and fungal aerobic granules: Formation, properties, surface modification, and biosorption of metals | Wang L.; Wang Y.-Y.; Liu X.; Chen X.-F.; Lee D.-J. ; Tay J.-H.; Zhang Y.; Wan C.-L. | RSC Advances | 11 | 10 | |
2010 | Critical assessment of anaerobic processes for continuous biohydrogen production from organic wastewater | Show K.-Y.; Zhang Z.-P.; Tay J.-H.; Liang D.T.; Lee D.-J. ; Ren N.; Wang A. | International Journal of Hydrogen Energy | 60 | 53 | |
2013 | Drying and re-cultivation of aerobic granules | Lv Y.; Wan C.; Liu X.; Zhang Y.; Lee D.-J. ; Tay J.-H. | Bioresource Technology | 31 | 27 | |
2006 | Effects of ultrasound pretreatment of sludge on anaerobic digestion | Show K.-Y.; Mao T.; Tay J.-H.; Lee D.-J. | Journal of Residuals Science and Technology | 14 | ||
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 | |
2008 | Hydrogen fermentation and methane production from sludge with pretreatments | Jan T.-W.; Adav S.S.; Lee D.J. ; Wu R.M.; Su A.; Tay J.-H. | Energy and Fuels | 31 | 24 | |
2005 | Lightweight aggregates from industrial sludge-marine clay mixes | Show K.-Y.; Lee D.-J. ; Tay J.-H.; Hong S.-Y.; Chien C.-Y. | Journal of Environmental Engineering | 20 | 18 | |
2015 | Mechanism of enhanced Sb(V) removal from aqueous solution using chemically modified aerobic granules | Wang L.; Wan C.-L.; Zhang Y.; Lee D.-J. ; Liu X.; Chen X.-F.; Tay J.-H. | Journal of Hazardous Materials | 67 | 58 | |
2015 | Microalgal drying and cell disruption - Recent advances | Show K.-Y.; Lee D.-J. ; Tay J.-H.; Lee T.-M.; Chang J.-S. | Bioresource Technology | 175 | 43 | |
2014 | Microbial communities of aerobic granules: Granulation mechanisms | Lv Y.; Wan C.; Lee D.-J. ; Liu X.; Tay J.-H. | Bioresource Technology | 157 | 138 | |
2006 | Properties of high strength aggregates from clay-amended industrial sludge | Show K.-Y.; Tay J.-H.; Lee D.-J. | Journal of Residuals Science and Technology | 2 | ||
2007 | Rapid formation of hydrogen-producing granules in an anaerobic continuous stirred tank reactor induced by acid incubation | Zhang Z.-P.; Show K.-Y.; Tay J.-H.; Liang D.T.; Lee D.-J. ; Jiang W.-J. | Biotechnology and Bioengineering | 85 | 72 | |
2018 | Recent advances on biosorption by aerobic granular sludge | Wang L.; Liu X.; Lee D.-J. ; Tay J.-H.; Zhang Y.; Wan C.-L.; Chen X.-F. | Journal of Hazardous Materials | 77 | 61 | |
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 | |
2004 | Reuse of wastewater sludge with marine clay as a new resource of construction aggregates | Tay J.-H.; Show K.-Y; Lee D.-J. ; Hong S.-Y. | Water Science and Technology | 21 |