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[1] Pengkang Jin*,Xuan Shi,Guangxi Sun,Lei Yang,Yixiao Cai,Xiaochang C. Wang. Co-Variation between Distribution of Microbial Communities and Biological Metabolization of Organics in Urban Sewer Systems [J]. Environmental Science & Technology, 2018, 52(3): 1270-1279.

[2] Pengkang Jin*,Bin Wang,Ding Jiao,Guangxi Sun,Baobao Wang,Xiaochang C. Wang. Characterization of microflora and transformation of organic matters in urban sewer system [J]. Water Research, 2015, 84: 112-119.

[3] Pengkang Jin*,Xin Jin,Viggo A. Bjerkelund,Stein W. Osterhus,Xiaochang C. Wang,Lei Yang. A study on the reactivity characteristics of dissolved effluent organic matter (EfOM) from municipal wastewater treatment plant during ozonation [J]. Water Research, 2016, 88: 643-652.

[4] Pengkang Jin,Bo Ren,Xiaochang C. Wang,Xin Jin,Xuan Shi*. Mechanism of microbial metabolic responses and ecological system conversion under different nitrogen conditions in sewers [J]. Water Research, 2020, 186: 116312.

[5] Jina Song,Pengkang Jin*,Xin Jin,Xiaochang C. Wang. Synergistic effects of various in situ hydrolyzed aluminum species for the removal of humic acid [J]. Water Research, 2019, 148: 106-114.

[6] Xin Jin,Xinyue Xie,Yuguo Liu,Yong Wang,Rui Wang,Pengkang Jin*,Chao Yang,Xuan Shi,Xiaochang C. Wang,Huining Xu. The role of synergistic effects between ozone and coagulants (SOC) in the electro-hybrid ozonation-coagulation process [J]. Water Research, 2020, 177: 115800.

[7] Lei Yang,Xue Bai,Juan Shi,Xinyu Du,Lu Xu,Pengkang Jin*. Quasi-full-visible-light absorption by D35-TiO2/g-C3N4 for synergistic persulfate activation towards efficient photodegradation of micropollutants [J]. Applied Catalysis B-Environmental, 2019, 256: 117759.

[8] Shengjiong Yang,Xiaojie Qiu,Pengkang Jin*,Mawuli Dzakpasu,Xiaochang C. Wang,Qionghua Zhang,Lu Zhang,Lei Yang,Dahu Ding,Wendong Wang,Kun Wu. MOF-templated synthesis of CoFe2O4 nanocrystals and its coupling with peroxymonosulfate for degradation of bisphenol A [J]. Chemical Engineering Journal, 2018, 353: 329-339. (热点论文+ESI高被引)

[9] Lu Xu,Xue Bai,Linkai Guo,Shengjiong Yang,Pengkang Jin*,Lei Yang. Facial fabrication of carbon quantum dots (CDs)-modified N-TiO2-x nanocomposite for the efficient photoreduction of Cr(VI) under visible light [J]. Chemical Engineering Journal, 2019, 357: 473-486. (ESI高被引)

[10] Lei Yang,Lu Xu,Xue Bai,Pengkang Jin*. Enhanced visible-light activation of persulfate by Ti3+ self-doped TiO2/graphene nanocomposite for the rapid and efficient degradation of micropollutants in water [J]. Journal of Hazardous Materials, 2019, 365: 107-117. (ESI高被引)

[11] Xinyu Du,Xue Bai,Lu Xu,Lei Yang,Pengkang Jin*. Visible-light activation of persulfate by TiO2/g-C3N4 photocatalyst toward efficient degradation of micropollutants [J]. Chemical Engineering Journal, 2020, 384: 123245. (ESI高被引)

[12] Xue Bai, Yichen Zhang, Juan Shi, Lu Xu, Yong Wang, Pengkang Jin*. A new application pattern for sludge-derived biochar adsorbent: Ideal persulfate activator for the high-efficiency mineralization of pollutants[J]. Journal of Hazardous Materials, 2021, 419:126343.

[13] Xin Jin, Shaohua Zhang, Shengjiong Yang, Yukai Zong, Lu Xu, Pengkang Jin*, ​​​​Chao Yang, Shiyi Hu, Yao Li, Xuan Shi, Xiaochang C. Wang,Behaviour of ozone in the hybrid ozonation-coagulation (HOC) process for ibuprofen removal: Reaction selectivity and effects on coagulant hydrolysis[J]. Science of The Total Environment, 2021, 794:148685.

[14] Shiyi Hu, Xin Jin, Chao Yang, Yong Wang, Xinyue Xie, Shaohua Zhang, Pengkang Jin*, ​​​​Xiaochang C. Wang.Enhanced complexation of humic acids: Homogenization of protonated groups in the hybrid ozonation-coagulation process[J]. Chemosphere, 2021, 280:130647.

[15] Wei Han, Pengkang Jin* ​​​​, Dawei Chen, Xiongke Liu, Hu Jin, Rui Wang, Yongjun Liu. Resource reclamation of municipal sewage sludge based on local conditions: A case study in Xi'an, China[J]. Journal of Cleaner Production, 2021, 316: 128189.

[16] Xuan Shi,Ge Gao,Jiameng Tian,Xiaochang C. Wang,Xin Jin,Pengkang Jin*. Symbiosis of sulfate-reducing bacteria and methanogenic archaea in sewer systems [J]. Environment international, 2020, 143: 105923-105923.

[17] Lu Xu,Chenxi Wu,Peihua Liu,Xue Bai,Xinyu Du,Pengkang Jin*,Lei Yang,Xin Jin,Xuan Shi,Yong Wang. Peroxymonosulfate activation by nitrogen-doped biochar from sawdust for the efficient degradation of organic pollutants [J]. Chemical Engineering Journal, 2020, 387: 124065.

[18] Lu Xu,Borui Fu,Yan Sun,Pengkang Jin*,Xue Bai,Xin Jin,Xuan Shi,Yong Wang,Suting Nie. Degradation of organic pollutants by Fe/N co-doped biochar via peroxymonosulfate activation: Synthesis, performance, mechanism and its potential for practical application [J]. Chemical Engineering Journal, 2020, 400: 125870.

[19] Xue Bai,Lei Yang,Anders Hagfeldt,Erik M. J. Johansson,Pengkang Jin*. D35-TiO2 nano-crystalline film as a high performance visible-light photocatalyst towards the degradation of bis-phenol A [J]. Chemical Engineering Journal, 2019, 355: 999-1010.

[20] Xiaojie Qiu,Shengjiong Yang,Mawuli Dzakpasu,Xiaoping Li,Dahu Ding,Pengkang Jin*,Rongzhi Chen,Qionghua Zhang,Xiaochang C. Wang. Attenuation of BPA degradation by SO4 center dot- in a system of peroxymonosulfate coupled with Mn/Fe MOF-templated catalysts and its synergism with Cl- and bicarbonate [J]. Chemical Engineering Journal, 2019, 372: 605-615.

[21] Lu Xu,Lei Yang,Xue Bai,Xinyu Du,Yong Wang,Pengkang Jin*. Persulfate activation towards organic decomposition and Cr(VI) reduction achieved by a novel CQDs-TiO2-x/rGO nanocomposite [J]. Chemical Engineering Journal, 2019, 373: 238-250.

[22] Shengjiong Yang,Xiaoyuan Guo,Zhaorui Wang,Mawuli Dzakpasu,Xiaofu Dai,Dahu Ding,Kun Wu,Yang Huang,Qionghua Zhang,Pengkang Jin*,Xiaochang C. Wang. Significance of B-site cobalt on bisphenol A degradation by MOFs-templated CoxFe3-xO4 catalysts and its severe attenuation by excessive cobalt-rich phase [J]. Chemical Engineering Journal, 2019, 359: 552-563.

[23] Xuan Shi,Langtao Sang,Xiaochang C. Wang,Pengkang Jin*. Pollutant exchange between sewage and sediment in urban sewer systems [J]. Chemical Engineering Journal, 2018, 351: 240-247.

[24] Rui Wang,Xin Jin,Ziyuan Wang,Wantao Gu,Zhechao Wei,Yuanjie Huang,Zhuang Qiu,Pengkang Jin*. A multilevel reuse system with source separation process for printing and dyeing wastewater treatment: A case study [J]. Bioresource Technology, 2018, 247: 1233-1241.

[25] Lu Xu,Lei Yang,Erik M. J. Johansson,Yuanhao Wang,Pengkang Jin*. Photocatalytic activity and mechanism of bisphenol a removal over TiO2-x/rGO nanocomposite driven by visible light [J]. Chemical Engineering Journal, 2018, 350: 1043-1055.

[26] Xin Jin,Pengkang Jin*,Rui Hou,Lei Yang,Xiaochang C. Wang. Enhanced WWTP effluent organic matter removal in hybrid ozonation-coagulation (HOC) process catalyzed by Al-based coagulant [J]. Journal of Hazardous Materials, 2017, 327: 216-224.

[27] Pengkang Jin*,Xianbao Wang,Qionghua Zhang,Xiaochang Wang,Huu Hao Ngo,Lei Yang. A new activated primary tank developed for recovering carbon source and its application [J]. Bioresource Technology, 2016, 200: 722-730.

[28] Shengjiong Yang,Pengkang Jin*,Xiaochang Wang,Qionghua Zhang,Xiaotian Chen. Phosphate recovery through adsorption assisted precipitation using novel precipitation material developed from building waste: Behavior and mechanism [J]. Chemical Engineering Journal, 2016, 292: 246-254.

[29] Pengkang Jin*,Xianbao Wang,Xiaochang Wang,Ngo Huu Hao,Xin Jin. A new step aeration approach towards the improvement of nitrogen removal in a full scale Carrousel oxidation ditch [J]. Bioresource Technology, 2015, 198: 23-30.

[30] 马萌,许路,金鑫,金鹏康.太阳能热活化过硫酸盐降解染料罗丹明B的效能[J].环境科学,2021,42(03):1451-1460.

[31] 谢新月,许建军,张少华,刘雨果,金鑫,金鹏康.电凝聚臭氧化耦合工艺的有机物处理特性及去除机制解析[J].环境科学,2021,42(02):883-890.

[32] 高京,张少华,王锐,金鹏康.盐度渐增对水解微生物群落结构与功能的影响[J].环境科学,2020,41(12):5518-5526.

[33] 荣懿,邵劲博,于优城,石烜,金鹏康.以污泥发酵液与尾水混合液为补给碳源的A2/O污染物去除特性[J].环境科学,2020,41(11):5089-5096.

[34] 张欣瑞, 池玉蕾, 王倩, 金鑫, 石烜, 金鹏康*. 低碳源条件下供氧模式对活性污泥系统脱氮性能的影响 [J]. 环境科学, 2020, 41(07): 3356-3364.

[35] 刘小钗, 荣懿, 汶丽杰, 李党勇, 金鹏康*. A2/O短程硝化耦合厌氧氨氧化系统构建与脱氮特性 [J].环境科学, 2020 , 41(04): 1779-1786.

[36] 荣懿, 刘小钗,何 音旋, 章武首, 金鹏康*. A2/O流量分配处理低C/N污水性能与微生物结构优化 [J]. 环境科学, 2019,4 0(09): 4113-4120.

[37] 吴春雷, 荣懿, 刘晓鹏, 史会欣, 章武首, 金鹏康*, 马文伟. 基于分区供氧与溶解氧调控的低C/N比污水短程硝化反硝化 [J]. 环境科学, 2019, 40(05): 2310-2316.

[38] 姚翔译, 石烜, 桑浪涛, 金鹏康*, 王晓昌. 城市污水管网中不同生化作用的基质流向 [J]. 环境科学, 2018, 39(09): 4242-4248.

[39] 金鑫, 侯瑞, 宋吉娜, 金鹏康*, 王晓昌. 基于2D-COS分析的难凝聚有机物臭氧化特性研究 [J]. 中国环境科学, 2018, 3: 923-928.

[40] 侯瑞, 金鑫, 金鹏康*, 苟邦耀, 王晓昌. 污水厂二级出水中难凝聚有机物的臭氧化特性 [J]. 环境科学, 2018, 39(02): 844-851.

[41] 金鹏康*, 杨珍瑞, 李蓉, 李岩, 周立辉. 反硝化抑制硫酸盐还原的工艺特性 [J]. 环境科学, 2017, 38(05): 1982-1990.

[42] 桑浪涛, 石烜, 张彤, 付博文, 金鹏康*. 城市污水管网中污染物冲刷与沉积规律 [J]. 环境科学, 2017, 38(05): 1965-1971.

[43] 常海东, 金鹏康*, 付博文, 李雪兵, 贾锐珂. 昆明市不同功能区排水管道沉积物性质 [J]. 环境科学, 2016, 37(10): 3821-3827.

[44] 侯瑞, 金鑫, 金鹏康*, 王晓昌. 臭氧-混凝耦合工艺污水深度处理特性及其机制 [J]. 环境科学, 2017, 38(02): 640-646.

[45] 孙光溪, 金鹏康*, 宋吉娜, 王先宝, 杨柯瑶. 城市污水管网中产甲烷菌的分布特性规律 [J]. 环境科学, 2016, 37(06): 2252-2258.

[46] 金鑫, 金鹏康*, 孔茜, 章佳昕, 王晓昌. 污水厂二级出水溶解性有机物臭氧化特性研究 [J]. 中国环境科学, 2015, 10: 2985-2990.

[47] 金鑫, 金鹏康*, 孔茜, 白雪, 王晓昌. 基于PARAFAC分析的二级出水DOM臭氧化特性研究 [J]. 中国环境科学, 2015, 2: 427-433.

 

Team Members

《城市污水管网污染物迁移转化特性》​​​​​​​ 科学出版社          2019                                                                                  
《臭氧混凝互促增效机制及其应用》 科学出版社 2018
《水中胶体物的混凝原理与应用》 科学出版社 ​​​​​​​ 2015 
《环境科学与工程专业英语》 西安交通大学出版社 2018 
《未来城市与可持续发展》 西安交通大学出版社 2018

​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​

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[1]  Composite ozone flotation integrated device,US2020/0147621,Pengkang Jin*, Xin Jin, Rui Wang(美国专利)

[2]  粉末盐电解氯气发生器,ZL01131744.2,金鹏康*,袁宏林,王晓昌

[3]  气浮水处理分离装置,ZL200410073500.4,王晓昌,金鹏康*,袁宏林

[4]  一种提供水力搅拌动力的水流调控器,ZL201110124228.8,金鹏康*,郭立志,王晓昌

[5]  一种臭氧供气压力稳定装置及使用该装置的气浮反应器,ZL201110122083.8,金鹏康*,王晓昌,任武昂

[6]  一种尿液中氮磷营养物质快速回收的方法及装置,ZL201310430232.6,金鹏康*,任武昂,梁成岗,王先宝,金鑫

[7]  石油集输系统中硫化氢气体次生的生物抑制方法与系统,ZL201310017680.3,金鹏康*,赵楠,李岩,周立辉,任建科

[8]  一种油田水平井压裂废水处理及资源化利用方法,ZL201210381905.9,金鹏康*,贺栋,任武昂,金鑫

[9]  油田废水模块化处理设备及工艺,ZL201210409035.1,金鹏康*,任武昂,王宝宝

[10] 一种油溶性脱硫剂及其制备和应用,ZL201210292956.4,金鹏康*,赵楠,周立辉,李岩

[11] 一种高悬浊体系废水延时搅拌混凝造粒处理方法与装置,ZL201410085213.9,金鹏康*,任武昂,王晓昌

[12] 一种浓缩污泥水同步脱磷除浊方法及装置,ZL201410085213.9,金鹏康*,王先宝,任武昂,金鑫

[13] 一种不改变氧化沟池形的开孔与流态调节方法及结构,ZL201310740292.8,金鹏康*,郭玉梅,王先宝,刘秀兵,邢美荣

[14] 一种低浓度有机物的核晶凝聚方法,ZL201310690137.X,金鹏康*,王晓昌,任武昂,金鑫

[15] 油田井场废弃钻井泥浆快速浓缩脱水方法与装置,ZL201310329950.4,金鹏康*,任武昂,王先宝,金鑫

[16] 一种城市污水管道沉积物取样设备,ZL201210393212.1,金鹏康*,金鑫,王宝宝,郭海泉,郝晓宇

[17]可改变微气泡臭氧-混凝-气浮工艺中臭氧投加顺序的方法及装置,ZL201310654568.0,金鹏康*,金鑫,任武昂,王先宝,韩冬,孔茜

[18] 一种多级臭氧气浮一体化装置,ZL201410616487.6,金鹏康*,韩冬,金鑫,任武昂

[19] 一种SBR耦合氧化沟分区供氧设计方法,ZL201410058289.2,金鹏康*,王先宝,郭玉梅,邢美荣,刘秀兵

[20] SRB生物抑制剂的制备和抑制原油中SRB的方法,ZL201310019812.6,金鹏康*,赵楠,李岩,周立辉,任建科

[21] 一种对小管径污水管道内沉积物的监测和定性定量分析方法,ZL201410616928.2,金鹏康*,赵楠,石山,卞晓峥,焦丁,王斌,

[22] 一种低能耗膜臭氧气浮一体化装置,ZL201510512288.5,金鹏康*,金鑫,韩冬

[23] 一种低能耗浮力推进式刮渣装置,ZL201610136804.3,金鹏康*,金鑫,韩冬,侯瑞,张伟,张琼华

[24] 一种低能耗自动清洗器壁的气浮结构,ZL201610137171.8,金鹏康*,金鑫,韩冬,王帅

[25] 一种微气泡静态立体成像观测装置,ZL201610905671.1,金鹏康*,金鑫,刘颖

[26] 一种自旋式多级布气旋流曝气器,ZL201610137184.5,金鹏康*,韩冬,金鑫,郑莹

[27] 一种电解诱导臭氧气浮一体化装置,ZL201611111661.7,金鹏康*,金鑫,任武昂,石烜,胡晓辉,杭建春

[28] 电诱导凝聚臭氧气浮-催化氧化多元耦合水处理系统与方法,ZL201611110857.4,金鹏康*,任武昂,金鑫,石烜

[29] 一种沉淀污泥回流助凝与凝核澄清装置,ZL201610289971.1,金鹏康*,朱秀荣,邱壮,王晓昌

[30] 一种臭氧强化催化材料的制备及应用方法,ZL201710725934.5,金鹏康*,王锐,许路,王丹,蒋丹丹

[31] 一种复合式臭氧气浮一体化装置,ZL201710573796.3,金鹏康*,金鑫,王锐

[32] 一种径向结合多级臭氧气浮装置,ZL201610903008.8,金鹏康*,金鑫,韩冬,王帅

[33] 一种气浮微气泡动态观测及调控系统,ZL201610905619.6,金鹏康*,金鑫,刘颖,韩冬

[34] 一种催化臭氧化-臭氧气浮一体化装置,ZL201710726484.1,金鹏康*,王锐,金鑫,王丹,蒋丹丹

[35] 一种利用恒压微气泡发生器供气的臭氧气浮装置及方法,ZL201710725959.5,金鑫,金鹏康*,王锐,王丹,蒋丹丹

[36] 一种基于虹吸原理的多级臭氧气浮工艺排渣装置,ZL201710725932.6,金鹏康*,王丹,金鑫,蒋丹丹,王锐

[37] 一种臭氧气浮工艺中高效自动排渣装置与方法,ZL201710562393.9,金鑫,金鹏康*,王锐,侯瑞

[38] 污泥重金属萃取剂的制备方法及其应用,ZL201310703822.1,孙先锋,金鹏康*,

[39] 管网预测模拟系统V1.0,2017SR200858

[40] 污水管网汇流水质转化模拟软件V1.0,2020SR1087243

[41] 城市污水管网水质转化虚拟仿真实验教学软件V1.0,2019SR0879861