(一)期刊论文 [1]Muxi Zhang, Hongxiang Zhu, Beidou Xi, Yuxin Tian, Xiaojie Sun*, Hongxia Zhang*, Beibei. Surface Hydrophobic Modification of Biochar by Silane Coupling Agent KH-570. Processes 2022, 10, 301. (通讯作者) (SCI) [2]Muxi Zhang, Xiaojie Sun*, Chunlian Wang, Yabo Wang, Zhihan Tan, Jie Li, Beidou Xi. Photocatalytic degradation of rhodamine B using Bi4O5Br2-doped ZSM-5.Materials Chemistry and Physics 278 (2022) 125697. (通讯作者) (SCI) [3]Chunlian Wang, Xiaojie Sun⁎, Muxi Zhang, Yabo Wang, Zhihan Tan, Jie Li,Beidou Xi.Ultrasound-assisted room-temperature in situ precipitation synthesis of BC doped Bi4O5Br2 for enhanced photocatalytic activity in pollutants degradation under visible light. Journal of Alloys and Compounds 889 (2021) 161609. (通讯作者) (SCI) [4]Chunlian Wang, Xiaojie Sun*, Huijun Shan, Hongxia Zhang and Beidou Xi.Degradation of Landfill Leachate Using UV-TiO2 Photocatalysis Combination with Aged Waste Reactors.processes,2021. (通讯作者) (SCI) [5]Hong-xia Zhang, Xiao-jie Sun, Hui-jun Shan, Chen-nan Xue & Jia-jie Wang. Composting of Night Soil and Horse Manure with Leaves as Organic Substrate, Compost Science & Utilization, 2020. 28:3-4, 158-168, DOI: 10.1080/1065657X.2021.1949409. (SCI) [6]Qian Li, Xiaojie Sun*, Quanyi Ouche, Chunlian Wang, Hongxia Zhang, Jinghan Guo. Novel approach to improving wastewater treatment and sewage sludge combustion using pulverized coal-activated sludge. Water Environment Research. 2020, 1–8. (通讯作者)(SCI) [7]Beibei Wu, Jie Li, Qian Li, Quanyi Ouche, Xiaojie Sun*, Lina Lan. EFFECT OF DIFFERENT FACTORS ON MAGNETIZED ACTIVATED SLUDGE-TREATED WASTEWATER. Fresenius Environmental Bulletin, 2020,29(01):206-213. (通讯作者)(SCI, 2020年9月ESI全球Top1%高被引论文) [8]BeibeiWu, Beidou Xi, Xiaosong He, Xiaojie Sun*, Qian Li, Quanyi Ouche,Hongxia Zhang, Chennan Xue. Methane Emission Reduction Enhanced by Hydrophobic Biochar-Modified Soil Cover. Processes, 2020, 8, 162; doi:10.3390/pr8020162. (通讯作者)(SCI) [9]Si-Jia Liu, Ming-Xia Zheng, Xiao-Jie Sun, Bei-Dou Xi, Xiao-Song He*, Xiao Xiao. Evolution properties and dechlorination capacities of particulate organic matter from a landfill. Journal of Hazardous Materials. 2020, 400, 123313. (SCI) [10]Jie Li, Beibei Wu, Qian Li, Yuzhu Zou, Zhaowen Cheng, Xiaojie Sun*, Beidou Xi. Ex situ simultaneous nitrification-denitrification and in situ denitrification process for the treatment of landfill leachates. Waste Management, 2019, 88:301–308. (通讯作者)(SCI) [11]Huijun Shan, Xiaojie Sun*, Hongxia Zhang, Dunqiu Wang, Yanhua Wu. Preparation of activated carbon from sugarcane bagasse for nitrobenzene removal in aqueous solutions. Fresenius Environmental Bulletin. 2018, 27(11): 7176-7185. (通讯作者)(SCI) [12]Dunqiu Wang, Huijun Shan, Xiaojie Sun*, Hongxia Zhang, Yanhua Wu. Removal of nitrobenzene from aqueous solution by adsorption onto carbonized sugarcane bagasse. Adsorption Science & Technology. 2018, 36(5–6) 1366–1385. (通讯作者)(SCI) [13]Xiaojie Sun*, Hongxia Zhang, Zhaowen Cheng, Siming Wang. Effect of low aeration rate on simultaneous nitrification and denitrification in an intermittent aeration aged refuse bioreactor treating leachate. Waste Management. 2017,63: 410–416. (SCI) [14]Xiaojie Sun*, Hongxia Zhang, Zhaowen Cheng. Use of bioreactor landfill for nitrogen removal to enhance methane production through ex situ simultaneous nitrification-denitrification and in situ denitrification. Waste Management. 2017, 66: 97–102. (SCI) [15]秦永丽,孙晓杰*,王春莲,伍贝贝,薛晨楠,张红霞.生物炭填埋场土壤覆盖层的甲烷减排性能和生物特征.中国环境科学2021,41(1):254-262. [16]孙晓杰*,伍贝贝,秦永丽,李洁,郭静晗.十六烷基三甲氧基硅烷改性生物炭的疏水性能优化试验.伟德bv1946官网学报,2020,40 (4) : 798-802. [17]孙晓杰*,王春莲,李倩,张红霞,叶宇航.中国生活垃圾分类政策制度的发展演变历程.环境工程,2020,38(8):65-70.(中文核心期刊) [18]薛晨楠,孙晓杰*,张红霞,蓝丽娜.磁粉投加量对SBR工艺污水处理效果的影响.水处理技术,2020,46(4):93-96. (通讯作者)(中文核心期刊) [19]孙晓杰*,秦永丽,伍贝贝,李洁,薛晨楠.硅烷偶联剂改性生物炭的疏水性能优化试验.环境科学与技术,2019,42(12):68-73.(中文核心期刊) [20]闪慧君,孙晓杰*,张红霞,胡晓晓,肖攀飞,郭静晗.硝酸盐负荷对新鲜垃圾稳定化的影响.工业安全与环保, 2017,43(12):70–73.(通讯作者)(中文核心期刊) [21]蓝丽娜,孙晓杰*,邹雨竹,赵孝芹.间歇曝气矿化垃圾反应器处理中晚期渗滤液.环境工程学报, 2017,11(3):1472-1476. (通讯作者)(中文核心期刊) [22]蓝丽娜,孙晓杰*,郭静晗,赵孝芹.曝气量对中间曝气矿化垃圾反应器处理渗滤液效果的影响.水处理技术,2017,43(4):102-104. (通讯作者)(中文核心期刊) [23]邹雨竹,孙晓杰*,郭静晗,赵孝芹.两段式进水两级矿化垃圾反应器处理中晚期垃圾渗滤液.环境工程,2017,35(5):48-52. (通讯作者)(中文核心期刊) [24]郭静晗,孙晓杰*,邹雨竹,赵孝芹.曝气式矿化垃圾反应器处理垃圾渗滤液.工业安全与环保,2017,43(7):98-101. (通讯作者)(中文核心期刊) [25]邹雨竹,孙晓杰*,肖攀飞,王嘉捷.园林废物堆肥产品作花卉栽培代用基质的实验.伟德bv1946官网,2016,36(3): 557-561. (通讯作者).(中文核心期刊) [26]成兆文,孙晓杰*,王思明,等.水力负荷对矿化垃圾反应器处理渗滤液效果的影响[J].环境工程,2015,33 (4):44-47.(通讯作者).(中文核心期刊) [27]成兆文,孙晓杰*,李冬秀,等.桂林市公园土壤肥力调查与评价[J].伟德bv1946官网学报,2015,35(2):370-375(通讯作者).(中文核心期刊) [28]肖攀飞,孙晓杰*,王思明,赵孝芹,成兆文.进水频次对矿化垃圾处理渗滤液的影响研究.环境科学与技术,2015,38(9):137-140 (通讯作者).(中文核心期刊) [29]孙晓杰*,赵孝芹,罗洁瑜,等.剩余污泥微生物燃料电池产电性能的优化试验研究[J].环境科学与技术,2014,37(8):161-164.(中文核心期刊) [30]Xiaojie Sun, Yingjie Sun*, Youcai Zhao, Ya-Nan Wang. Leachate recirculation between alternating aged refuse bioreactors and its effect on refuse decomposition [J].Environmental Technology, 2014,35(7):799-807. (SCI) [31]孙晓杰*,王思明,解长君,赵孝芹,蒋鹏.矿化垃圾粒径对垃圾渗滤液处理效果的影响[J].环境工程,2014,32(3):106-108.(中文核心期刊) [32]Yingjie Sun,Ya-nan Wang, Xiaojie Sun*.Production characteristics of N2O during stabilization of municipal solid waste in an intermittent aerated semi-aerobic bioreactor landfill[J]. Waste Management.2013,33(12): 2729-2736(通讯作者). (SCI) [33]孙晓杰*,王嘉捷,赵孝芹,王敦球,朱义年.我国城市污水厂推行一级A标提标改造探讨.环境工程,2013,31(6):12-15.(中文核心期刊) [34]孙晓杰*,王思明,赵孝芹,王嘉捷;赵由才.矿化垃圾生物反应床堵塞问题探讨.环境工程.2013,31(2):83-86.(中文核心期刊) [35]孙晓杰*,周洪涛,魏玮,王敦球,魏建文,朱义年.氧化沟内推进器数量对污水流速的影响.中国给水排水, 2013,29(9): 84-86.(中文核心期刊) [36]Xiaojie Sun*, Siming Wang,Jiajie Wang,Wenjing Lu,Hongtao Wang. Co- composting of night soil and green wastes [J]. Compost Science & Utilization, 2012, 20 (4): 254-259. (SCI) [37]Xiaojie Sun*, Dunqiu Wang, Wenjing Lu and Hongtao Wang. Characteristics of night soil and leaf co-composting using aerobic static method. Front. Environ. Sci. Engin. China, 2012,6(3): 421-427. (SCI) [38]孙晓杰*,罗洁瑜,王敦球,朱义年.我国城市污水处理厂节能降耗研究进展.伟德bv1946官网学报, 2012,32(4):519-523.(中文核心期刊) [39]孙晓杰*,王敦球,赵由才.秋冬季节对矿化垃圾反应器处理渗滤液效果的影响.环境科学与技术,2011,34(12):185-188.(中文核心期刊) [40]孙晓杰*,王敦球,王洪涛.垃圾中含碳有机物厌氧降解过程的独立性探讨.伟德bv1946官网学报,2011,31(2):242-245.(中文核心期刊) [41]Yingjie Sun, Xiaojie Sun, Youcai Zhao. Comparison of semi-aerobic and anaerobic degradation of refuse with recirculation after leachate treatment by aged refuse bioreactor. Waste Management, 2011,31(6): 1202-1209. (SCI) [42]孙英杰,王亚楠,孙晓杰,吴昊.脱氮型生物反应器填埋场中N2O产生潜势分析.环境科学与技术,2011,34(12):185-188.(中文核心期刊) [43]王敦球,赵成根,孙晓杰,张溪,林华.桂林市七里店污水净化厂氧化沟升级改造.2010, 26(22):69-71.(中文核心期刊) [44]孙晓杰*,王洪涛,陆文静.通风量对粪渣与树叶共堆肥的影响.农业工程学报. 2009,25(9):249-253. (EI) [45]孙晓杰*,王洪涛,陆文静.粪渣与树叶静态好氧共堆肥最佳配比研究.清华大学学报. 2009, 49(12): 1988 - 1991.(EI) [46]孙晓杰*,王洪涛,陆文静.我国城市生活垃圾收集和分类方式探讨.环境科学与技术,2009,32(10):200-202.(中文核心期刊) [47]孙晓杰*,徐迪民,李雄.上海城市生活垃圾的组成及热值分析.同济大学学报, 2008, 36(3): 356-360.(EI) [48]孙晓杰*,徐迪民,于德爽.海水冲厕污水的短程硝化试验研究.中国给水排水, 2007, 23(3): 40-43,52.(中文核心期刊) (二)专著译著 (1)孙晓杰,王嘉捷,著.《园林废弃物资源化循环利用技术研究》,北京:中国环境出版集团,2020.12; (2)孙晓杰著.《生活垃圾生物反应器循环填埋技术研究》,北京:中国环境出版集团,2018.9; (3)王敦球主编,肖瑜,孙晓杰,张军,游少鸿副主编.《固体废物处理工程》,北京:中国环境出版社,2015.8; (4)孙晓杰,赵由才主编.《日常生活中的环境保护》,北京:冶金工业出版社,2013.1; (5)曹伟华,孙晓杰,赵由才主编.《污泥处理与资源化应用实例》,北京:冶金工业出版社,2010.4; (6)孙英杰,孙晓杰,赵由才主编.《冶金企业污染土壤和地下水整治与修复》,北京:冶金工业出版社,2008.1; (7)牛冬杰,孙晓杰,赵由才主编.《工业固体废物处理与资源化》,北京:冶金工业出版社,2007.3 (三)授权专利/软件著作权 (1)孙晓杰,闪慧君,薛晨楠,成兆文,张红霞.一种加速填埋垃圾甲烷化的装置,2021.2.9,中国,201810236853.3;(发明专利) (2)孙晓杰,闪慧君,薛晨楠,成兆文,张红霞.一种加速填埋垃圾甲烷化的方法,2021.4.9,中国,201810237297.1;(发明专利) (3)孙晓杰,李倩,王春莲,欧车权宜,张红霞,闪慧君.一种深度处理渗滤液回灌加速填埋垃圾稳定化的装置,2021.9.24,中国,202021818609.7;(实用新型) (4)孙晓杰,欧车权宜,李倩,王春莲,郭静晗,张红霞.一种改善污水处理与污泥燃烧效果的装置,2020.10.9,中国,ZL201921847439.2;(实用新型) (5)孙晓杰,李洁,伍贝贝,秦永丽,李倩,欧车权宜,邹雨竹,张红霞.一种加速填埋垃圾稳定化的装置, 2020.4.14,中国,ZL201921028036.5;(实用新型) (6)孙晓杰,邹雨竹,赵孝芹,蓝丽娜.一种两级矿化垃圾反应器联用装置,2017.5.31,中国,ZL201510533259.7;(发明专利) (7)孙晓杰、王洪涛、陆文静,一种处理垃圾渗滤液的方法及其专用装置,2011.8.10,中国,ZL200810102861.5;(发明专利) (8)孙晓杰,王洪涛,陆文静,处理垃圾渗滤液的方法及其专用装置,2011.4.27,中国,ZL200810102860.0;(发明专利) (9)孙晓杰,王敦球,张学洪,孙英杰,徐迪民.一种厌氧型渗滤液零排放回灌装置,2011.11.23,中国,ZL201120112246.X;(实用新型专利) (10)伟德bv1946官网,城镇污水处理厂处理方案选择判断系统软件V1.0.(计算机软件著作权等级证书,登记号2012SR034855) (四)荣誉奖励 (1)2019年度环境保护科学技术奖二等奖.有机废物制肥重金属移除和钝化关键技术研发及应用.(何小松、张增强、余光辉、李荣华、孙晓杰、张慧、崔骏、王权、吴书文.) (2)2016年广西科学技术进步奖二等奖.基于陶瓷平板膜生物反应器(CMBR)的高浓度废水协同处理技术开发与应用.(张文杰、金樾、孙晓杰、李海翔、常户星、焦淑菲、张圆圆、温锦培.) (3)2014-2015年度伟德bv1946官网“优秀班导师(班主任)” (4)2014年伟德bv1946官网“十佳优秀研究生指导教师” (5)2011年伟德bv1946官网“优秀本科毕业生指导教师” |