代表性论著(论文、著作、专利) 论文 [1] Zhang Wenjuan, Li Xiang, He Ya, Xu Xianbao, Chen Hong, Zhang Ai, Liu Yanan, Xue Gang*, Jacek Makinia. Ammonia amendment promotes high rate lactate production and recovery from semi-continuous food waste fermentation[J]. Bioresource technology, 2020, 302: 122881. [2] Zhang Wenjuan, Xu Xianbao, Yu Pingfeng, Zuo Pengxiao, He Ya, Chen Hong, Liu Yanan, Xue Gang, Li Xiang*, Pedro J. J. Alvarez. Ammonium enhances food waste fermentation to high-value optically active L-lactic acid[J]. ACS Sustainable Chemistry & Engineering, 2020, 8(1): 669-677. [3] Zhang Wenjuan, Li Xiang*, Zhang Ting, Li Jun, Lai Sizhou, Chen Hong, Gao Pin, Xue Gang. High-rate lactic acid production from food waste and waste activated sludge via interactive control of pH adjustment and fermentation temperature[J]. Chemical Engineering Journal, 2017, 328: 197-206. [4] Li Xiang, Zhang Wenjuan, Lai Sizhou, Gan Yanfei, Li Jun, Ye Tingting, You Jiguang, Wang Siyu, Chen Hong, Deng Wenyi, Liu Yanan, Zhang Wenqi, Xue Gang *. Efficient organic pollutants removal from industrial paint wastewater plant employing Fenton with integration of oxic/hydrolysis acidification/oxic[J]. Chemical Engineering Journal, 2018, 332: 440-448. [5] Li Xiang, Zhang Wenjuan, Xue Sunli, Lai Sizhou, Li Jun, Chen Hong, Liu Zhenhong and Xue Gang*. Enrichment of D-lactic acid from organic wastes catalyzed by zero-valent iron: an approach for sustainable lactate isomerization[J]. Green Chemistry, 2017, 19(4): 928-936. [6] Xu Xianbao, Zhang Wenjuan, Gu Xia, Guo Zhichao, Song Jian, Zhu Daan, Liu Yanbiao, Liu Yanan, Xue Gang, Li Xiang*, Jacek Makinia. Stabilizing lactate production through repeated batch fermentation of food waste and waste activated sludge[J]. Bioresource technology, 2020, 300: 122709. [7] Li Jun, Zhang Wenjuan, Li Xiang*, Ye Tingting, Gan Yanfei, Zhang Ai, Chen Hong, Xue Gang, Liu Yanan. Production of lactic acid from thermal pretreated food waste through the fermentation of waste activated sludge: Effects of substrate and thermal pretreatment temperature[J]. Bioresource technology, 2018, 247: 890-896. [8] Li Xiang, Zhang Wenjuan, Ma Li, Lai Sizhou, Zhao Shu, Chen Yinguang, Liu Yanan*. Improved production of propionic acid driven by hydrolyzed liquid containing high concentration of l-lactic acid from co-fermentation of food waste and sludge[J]. Bioresource technology, 2016, 220: 523-529. [9] Xiang Li, Safeena Sadiq, Wenjuan Zhang, Yiren Chen, Xianbao Xu, Anees Abbas, Shanping Chen, Ruina Zhang, Gang Xue, Dominika Sobotka, Jacek Makinia. Salinity enhances high optically active L-lactate production from co-fermentation of food waste and waste activated sludge: Unveiling the response of microbial community shift and functional profiling - ScienceDirect[J]. Bioresource Technology, 2020, 319. 授权专利 [1]一种强化化工废水水解酸化的方法ZL 201510271977.1; [2]微电解催化强化水解酸化反应器ZL 201510447663.2; [3]一种利用有机废弃物制备吸附炭材料的方法ZL 201510527173.3; [4]一种下向流零价铁类芬顿 生物滤池集成化废水处理工艺及设备ZL 201510916079.7; [5]一种臭氧-厌氧铁还原联用污泥减量的芬顿氧化工艺ZL201510909643.2;
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