田家宇
中国
13602171385
博士研究生导师
男
哈尔滨工业大学
工学博士
tjy800112@126.com
土木与交通学院
教授
土木工程
博士研究生
tian jia yu
访问量:
科研论文
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[21] Li, Huarui12;Junker, Allyson L.1;Wen, Junying1;Ahrens, Lutz3;Sillanp , Mika E.T.1;Tian, Jiayu4;Cui, Fuyi5;Vergeynst, Leendert1;Wei, Zongsu1;. A recent overview of per- and polyfluoroalkyl substances (PFAS) removal by functional framework materials. Chemical Engineering Journal, 2023, 452 , .
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[22] 田家宇,张宇,高珊珊,胡承志. 一种硫酸盐和磷酸盐联合使用高效除氟的方法和系统. , 2023, 河北工业大学, CN116002831A 2023.04.25.
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[23] Yue Zong1;Song Su2;Ruijun Zhang1;
CA 1 ;Yan Sun3;Jiayu Tian1;CA 2 ;Bart Van der Bruggen4;. Promoting the Efficiency of Tetracycline Removal From Tap Water With Commercial NF Membranes Via a Facile Post-treatment. Process Safety and Environmental Protection, 2023, , . -
[24] 田家宇,樊超,潘慧,尹兴,白钊玉,高珊珊. 不同烧结助剂对中空平板陶瓷膜性能的影响. 中国陶瓷, 2023, 59 7, 26-34.
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[25] 张瑞君1;,范忠航1;,韩正双2;,闫慧敏2;,宋佳1;,田家宇1;. 微絮凝/中空平板陶瓷膜工艺处理微污染地表水的效能. 中国给水排水, 2023, 39 11, 23-29.
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[26] Ruijun Zhang1;Qianzhi Sun1;Jiayu Tian1;
CA 1 ;Bart Van der Bruggen2;Junyong Zhu3;CA 2 . Non-polyamide nanofiltration (NPA-NF) membrane: A non-mainstream but indispensable member of the “membrane family”. Desalination, 2023, 564 , 116772. -
[27] Liu, Xiwen1; Li, Huarui2; Gao, Shanshan1; Bai, Zhaoyu1; Tian, Jiayu1 . Peroxymonosulfate activation by different iron sulfides for bisphenol-A degradation: Performance and mechanism. Separation and Purification Technology, 2022, 289 , .
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[28] Song, Xiumei1; Ni, Jiaxin1; Liu, Dongmei1; Shi, Wenxin2; Yuan, Yixing1; Cui, Fuyi2; Tian, Jiayu3; Wang, Wei1 . Molybdenum disulfide as excellent Co-catalyst boosting catalytic degradation of sulfamethoxazole by nZVI/PDS process. Separation and Purification Technology, 2022, 285 , .
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[29] Yifan Wang1,2;Xing Zheng1,2,3;
CA 1 ;Dongfei Li4;Jiayu Tian5;Hua Wu1;Yaozhong Zhang1,2;. Comparison of membrane fouling induced by protein, polysaccharide and humic acid under sodium and calcium ionic conditions. Desalination, 2023, 548 , 116236. -
[30] Zhang, Huizhong;Tian, Jiayu;Cui, Xiangke;Li, Jiansheng;Zhu, Zhigao. Highly mesoporous carbon nanofiber electrodes with ultrahigh specific surface area for efficient capacitive deionization. Carbon, 2023, 201 , 920-929.