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[1] Fang Huang, Hongbo Liu*, Jiaxin Wen, Cheng Zhao, Lu Dong, He Liu*. Underestimated humic acids release and influence on anaerobic digestion during sludge thermal hydrolysis. Water Research, 2021, 201: 117310.
[2] Xiaolong Wu, Xian Xiang, Xiaoxu Dong, Guangshuo Chai, Ziman Song, Yongxiang Wang, Jia Liu, Xinpu Han, Yajie Li, Hongbo Liu*. Profitable wastewater treatment by directly recovering organics for volatile fatty acids production. Journal of Water Process Engineering, 2021, 40: 101881.
[3] Hongbo Liu, Ling Wang, Xuedong Zhang, Bo Fu, Xiaoyou Lu. A viable approach for commercial VFAs production from sludge: Liquid fermentation in anaerobic dynamic membrane reactor. Journal of Hazardous Materials, 2019, 365: 912-920.
[4] Hongbo Liu, Ling Wang, Bo Yin, Bo Fu, He Liu*. Deep exploitation of refractory organics in anaerobic dynamic membrane bioreactor for volatile fatty acids production from sludge fermentation: Performance and effect of protease catalysis. Journal of Environmental Management, 2018, 217: 478-485
[5] Lei Yu, Wenduo Zhang, He Liu, Ganghui Wang, Hongbo Liu*. Evaluation of volatile fatty acids production and dewaterability of waste activated sludge with different thermo-chemical pretreatments. International Biodeterioration & Biodegradation, 2018, 129: 170-178.
[6] Ling Wang, Hongbo Liu*, Wenduo Zhang, Tiantian Yu, He Liu. Recovery of organic matters in wastewater by self-forming dynamic membrane bioreactor: Performance and membrane fouling. Chemosphere, 2018, 203: 123-131.
[7] He Liu, Peng Han, Hongbo Liu*, Guangjie Zhou, Zhiyong Zheng. Full-scale production of VFAs from sewage sludge by anaerobic alkaline fermentation to improve biological nutrients removal in domestic wastewater. Bioresource Technology, 2018, 260: 105-114.
[8] Hongbo Liu, Yuanyuan Wang, Lin Wang, Bo Fu, He Liu*. Stepwise hydrolysis to improve carbon releasing efficiency from sludge, Water research, 2017, 119: 5-10.
[9] Hongbo Liu, Hang Xiao, Bo Fu, He Liu*. Feasibility of sludge deep- dewatering with sawdust conditioning for incineration disposal without energy input. Chemical Engineering Journal, 2017, 313: 655-662.
[10] Liu He, Shia Jiasheng, Zhan Xinmin, Zhang Lijuana, Fu Bo, Liu Hongbo*. Selective acetate production with CO2 sequestration through acetogen-enriched sludge inoculums in anaerobic digestion. Biochemical Engineering Journal. 2017, 121, 163–170
[11] Hongbo Liu, Hang Xiao, Yepin Zu, Bo Yin, Huijun Ma, Shuai Huang, Bo Fu, He Liu*. Enhanced acid production by different pretreatments in anaerobic fermentation of waste activated sludge. Chemical Engineering Journal, 2016, 284: 194-201.
[12] Hongbo Liu, Yuanyuan Wang, Bo Yin, Yanfang Zhu, Bo Fu, He Liu*. Improving volatile fatty acid yield from sludge anaerobic fermentation through self-forming dynamic membrane separation. Bioresource Technology, 2016, 218: 92-100.
[13] Yanfang Zhu, Hongbo Liu*, He Liu*., Huang Shuai, Ma Huijun, Tian Yue. Filtration characteristics of anaerobic fermented sewage sludge for fatty acids production. Separation and Purification Technology, 2015, 142: 8-13.
[14] Yan Zhang, Lihui Zhang, He Liu*, Linlin Gong, Qianqian Jiang, Hongbo Liu, Bo Fu. Carbon dioxide sequestration and methane production promotion by wollastonite in sludge anaerobic digestion. Bioresource Technology, 2019, 272: 194-201
[15] Lihui Zhang, He Liu, Zhiyong Zheng, Huijun Ma, Hongbo Liu. Continuous liquid fermentation of pretreated waste activated sludge for high rate volatile fatty acids production and online nutrients recovery. Bioresource Technology, 2018, 249: 962-968.
[16] Ma HJ, Liu H*., Zhang LH, Yang M, Fu B, Liu HB. Novel insight into the relationship between organic substrate composition and volatile fatty acids distribution in acidogenic co-fermentation. Biotechnology for biofuel. 2017,10:137
[17] Yin B, Liu HB, Wang YY, Bai J, Liu H*, Fu B. Improving volatile fatty acids production by exploiting the residual substrates in post-fermented sludge: protease catalysis of refractory protein. Bioresource Technology. 2016,203: 124-131
[18] Ma HJ, Chen XC, Liu H*, Liu HB, Fu B. Improvement of VFAs production from waste activated sludge by pH adjustment: Alkaline or neutral pH? Waste Management , 2016, 48: 397–403
[19] He Liu, Shuo Yang, Xiaoyu Xu, Hongbo Liu, Bo Fu. Towards understanding the dewatering mechanism of sewage sludge improved by bioleaching processing. Separation and Purification Technology, 2016, 165: 53-59.
[20] Fu B. Jiang Q. Liu HB, Liu H*. Quantification of viable but nonculturable Salmonella spp. and Shigella spp. during sludge anaerobic digestion and their reactivation during cake storage Journal of Applied Microbiology. 2015, 119: 1138-1147.
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[1] ȻƌWĿ, 51978313, @ˮ^иֳ|׃Ӱ푙C, 60fо: 2020.01-2023.12. ֡
[2] ˮȾƼشר֮ӿ⣬2015ZX07306-001ˮԴԴȿƼļоۺʾ2015/12- 2018/1251.46f֡
[3] ˮȾƼشר֮ӿ⣬2017ZX07203001-06ʹüֵз2017/01- 2020/0630f
[4] ϴѧصĿJUSRP51633Bߺģ黯ȼװϵͳƣ2016.03-2019.0280fԪ
[5] ʡȻѧBK20141112ǿͲ̼Դת;ػо2014.7- 2017.610fԪ
[6] Ȼѧ51208231Ͳ̬ĤӦĤ˻Ⱦزԣ2013.01-2015.1225fԪ
[7] ȻƌWĿ51678280̹ο鵼̼κﲶCO2ϻо2017/01-2020/1262f
[8] ʡ̫ˮۺĿʮרʽ𣩣JSZC-G2016-345ˮ꼰üоʾ2016/11-2018/10130f
[9] ʡ̫ˮۺп⣬JSZC-G2013-191ˮߺؼоʾ2013.11-2015.4190fԪ
[10] ƼʮƼ֧Ŀ2014BAD24B03-02ߺ豸ɣ2014.9-2017.8165fԪ
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[1] ͣ겨ʣͲǿˮѵ2015Ȼ㻷̽
[2] ͣ겨лԴĹؼʾ2018йҵϻƼȽ
[3] ͣ겨֣־壬ղй̷л̼ЧתԴü2019ѧȽ
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1.һNЛ@ˮÓķbã̖ZL 201110064546.X
2.һNBͬͮbķZL201110416294.2. 2012.3
3.һNЙC@lͮbbü䑪áZL201410062427.4. 2015.6
4.һN늽UˮۺȻX̎. ZL.201210145246.9. 2014.9
5.һN@lͮbijЛ@A̎. ZL.201210032615.3. 2013.12
6.һNӵ迣BmھVʽÓˮ. ZL.201210275125.6. 2013.9
7.һNԴ^c՛@ˮЙC̼Դķb. ZL. 201710144921.9.
8һNS{zwƂ䷽ڸƛ@ÓˮܺͭhIеđ. ZL201710362876.4
9. һNAʽˮߛ@A̎ЧʺÓˮЧķ. ZL201510613992.X
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