[1] Liang Guo, Jun Zhao, ZonglianShe, Mingmin Lu, Yan Zong. Statistical key factors optimization of conditionsfor hydrogen production from S-TE (Solubilization by thermophilic enzyme) wastesludge. Bioresource technology,2013, 137: 51-56 (SCI,IF=4.75)[2] Liang Guo, JunZhao, Zonglian She, Changli Cao. Effect of different pretreatment onbio-hydrogen production with S-TE (solubilization by thermophilic enzyme)pretreated mariculture organic wastes (MOW). Environmental Engineering andManagement Journal. Accept (SCI, IF=1.117)[3] Liang Guo, Jun Zhao, ZonglianShe, Mingmin Lu, Yan Zong. Effect of S-TE (solubilization by thermophilicenzyme) digestion conditions on hydrogen production from waste sludge. Bioresourcetechnology,2012,117(8):368-372. (SCI,IF=4.75)[4] Liang Guo, Xiaoming Li*, Guangming Zeng, Yi Zhou. Effectivehydrogen production using waste sludge and its filtrate. Energy, 2010,35(9):3557-3562 (SCI,IF=3.651)[5] Liang Guo, Xiaoming Li*, GuangmingZeng, Xiaofeng Zhu, Qi Yang, and Zonglian She. Enhanced hydrogen productionfrom sewage sludge pretreated by thermophilic bacteria. Energy and Fuel, 2010,24(11): 6081-6085 (SCI,IF=2.853)[6] Liang Guo, Xiaoming Li*, Xie Bo, Qi Yang, Guangming Zeng,Dexiang Liao, JingjinLiu. Impacts of sterilization, microwave and ultrasonication pretreatment onhydrogen producing using waste sludge. Bioresource technology, 2008, 99(9):3651-3658 (SCI,IF=4.75)[7] Xiaoming Li*, Liang Guo, Qi Yang, GuangmingZeng, Dexiang Liao. Removal of carbon and nutrients from low strength domesticwastewater by expanded granular sludge bed-zeolite bed filtration (EGSB-ZBF)integrated treatment concept. Process Biochemistry, 2007, 42(8): 1173-1179 (SCI,IF=2.414,并列第一作者)[8] Liang Guo, Xiaoming Li, Yi Zhou, Zonglian She. Impact of carbonatehydroxylapatite (CHAP) addition on bio-hydrogen production from microwavepretreated sludge. Applied Mechanics and Materials,2011(71-78):2903-2906 (EI)[9] Zonglian She, En Shi, Xiaohui Fu, Jian Wu, LinaJiang andLiang Guo*. Acclimation of anaerobic granular sludge and2,6-DNP removal in the upflow anaerobic sludge blanket (UASB) reactors. Advancedmaterials research, 2011, 183-185: 352-361 (EI,通讯作者)[10] Zonglian She, Xiaohui Fu, Jian Wu, En Shi,Laili Zhao, Liang Guo*. Treatment of low strength wastewater and sludgecharacteristics in an anaerobic baffled reactor (ABR) at room temperature. proceedings2011 world congress on engineering and technology, 2011,5:721~724 (EI,通讯作者)[11] 郭亮, 李小明*, 曾光明, 杨麒, 廖德祥. 沸石在废水厌氧生物处理技术中的应用. 工业水处理, 2007, 27(1): 12-16[12] 赵珺,郭亮*,曹昌丽,王宇宁. 不同预处理条件对海水养殖废弃物发酵产氢的影响. 微生物学通报, 2012,39(9):1225-1233[13] 朱小峰,郭亮,李小明,曾光明,潘维,周屹,杨永林,汤迎. S-TE预处理污泥厌氧发酵产氢. 太阳能学报, 2010,31(10):1257-1263 (EI)[14] 谢波, 郭亮, 李小明*, 杨麒, 张昱, 杨浩, 曾光明, 刘精今. Pseudomonas sp. GL1利用不同预处理污泥产氢及其底物变化研究. 环境科学, 2008, 29(4): 996-1001 (EI)[15] 谢波, 郭亮, 李小明*, 杨麒, 杨永林, 周屹. 3种预处理方法对污泥破解效果的研究. 中国环境科学, 2008, 28(5): 417-421(EI)[16] 周屹, 郭亮, 李小明*, 谢波, 曾光明, 李宇亮, 杨麒, 刘精今. 灭菌预处理污泥及其滤液产氢发酵的比较研究. 环境工程学报, 2008, 2(10):1332-1338[17] 李宇亮, 李小明*, 郭亮, 曾光明, 杨 麒, 廖德祥. 污泥发酵制氢技术的现状和展望. 中国沼气, 2008, 26(1): 3-7[18] 李宇亮, 李小明*, 郭亮, 周屹, 曾光明, 杨麒, 廖德祥. 污泥发酵产氢中高效产氢菌Enterococcus sp.LG1的分离及产氢特性. 微生物学通报, 2008, 35(9):1373-1378[19] 杨永林,李小明, 郭亮, 贾斌, 曾光明, 唐清畅, 汤迎. 接种嗜热菌对剩余污泥的溶解效果研究. 中国给水排水, 2009, 25(17): 5~9[20] 胡劲梅, 李小明*, 杨麒, 郭亮, 曾光明, 刘倩倩. 表面活性剂加强动电技术去除污泥中铜和镉的研究. 环境工程学报, 2009, 3(3): 532-538[21] Xiao-Ming Li*, Qian-Qian Liu, Qi Yang, LiangGuo, Guang-Ming Zeng, Jin-Mei Hu. Enhanced sludge granulation in sequencingbatch reactor by Mg2+ augmentation. Bioresource technology, 2009, 100(1):59-63(SCI, IF=4.75)[22] 汤迎, 李小明*, 杨永林, 杨麒, 曾光明,郭亮,朱小峰,李焕利,潘维. 嗜热菌株AT07-1的分离鉴定及其在污泥溶解预处理厌氧发酵产氢中的应用. 环境科学学报, 2009, 29(11): 2300-2305 [1]. 国家发明专利:【发明人】:郭亮,李小明,曾光明,杨麒,管慧玲【发明名称】:城市污水综合处理装置[2]. 国家发明专利:【发明人】:郭亮,佘宗莲,马启敏,李茜【发明名称】:序批式悬浮填料生物膜污水处理装置[3]. 国家发明专利:【发明人】:佘宗莲,郭亮,马启敏,李茜【发明名称】:一种悬浮填料微生物快速挂膜的方法[4]. 国家发明专利:【发明人】:佘宗莲,郭亮,马启敏,周艳丽【发明名称】:内循环序批式生物膜污水处理装置[5]. 国家发明专利:【发明人】:郭亮,李小明,曾光明,杨麒,廖德祥【发明名称】:微波法预处理污水厂剩余污泥发酵产氢的方法及其装置[6]. 国家发明专利:【发明人】:郭亮,佘宗莲,马启敏,赵珺,卢明敏,纵岩【发明名称】:一种嗜热菌及其在发酵产氢中的应用