科研论文
[1] Guo,Zhi-Yuan12;Cui,Wei-Zhe12;Ji,Zhi-Yong12;Tumba,Kaniki23;Wang,Jing12;Fu,Liu-Jia12;Zhang,Zhao-Xiang12;Liu,Jie12;Zhao,Ying-Ying12;Zhang,Zhong-De24;Yuan,Jun-Sheng12;. Deep utilization of salinity gradient energy between concentrated seawater and river water by multi-stage reverse electrodialysis. Desalination, 2023, 566 , .
[2] Chen,Tianyi1;Bi,Jingtao123;Sun,Mengmeng123;Liu,Jie123;Yuan,Junsheng123;Zhao,Yingying1234;Ji,Zhiyong123;. Electrodialysis metathesis for high-value resource conversion and recovery: From sustainable applications to future prospects. Chemical Engineering Journal, 2023, 473 , .
[3] Zhu,Xingchi12;Guo,Zhiyuan12;Ji,Zhiyong12;Wang,Jing12;Zhang,Panpan12;Liu,Jie12;Zhao,Yingying12;Yuan,Junsheng12;. Simulation and optimization of selective electrodialysis magnesium and lithium separation process; [选择性电渗析镁锂分离过程模拟优化]. Huagong Xuebao/CIESC Journal, 2023, 74 6, 2477-2485.
[4] Jing Wang1,2,3,4;Jia-Wei Fang1,2,3,4;Zhi-Yong Ji1,2,3;
CA 1,2 ;Zhi-Yuan Guo1,2,3;Xin-Wei Li1,2,3;Jie Liu1,2,3;Ying-Ying Zhao1,2,3;Zhong Liu3,5;Feng-Feng Gao3,6;Yuan Zhong1,3,5;Jun-Sheng Yuan1,2,3;. Preparation of a novel hollow porous LiMn2O4 film electrode (H-LMOE) and its improved performance for lithium extraction. Journal of Environmental Chemical Engineering, 2023, 11 5, 110878.[5] 朱兴驰1,2;,郭志远1,2;,纪志永1,2;,汪婧1,2;,张盼盼1,2;,刘杰1,2;,赵颖颖1,2;,袁俊生1,2;. 选择性电渗析镁锂分离过程模拟优化. 化工学报, 2023, 74 6, 2477-2485.
[6] Chen, Tianyi1; Bi, Jingtao1; Zhao, Yingying1, 2, 3, 5; Du, Zhongte1; Guo, Xiaofu1, 2, 3; Yuan, Junsheng4; Ji, Zhiyong1, 2, 3; Liu, Jie1, 2, 3; Wang, Shizhao1, 2, 3; Li, Fei1, 2, 3; Wang, Jing1, 2, 3 . Carbon dioxide capture coupled with magnesium utilization from seawater by bipolar membrane electrodialysis. Science of the Total Environment, 2022, 820 , .
[7] Zhao,Yingying1234;Wang,Xinyu1;Yuan,Junsheng23;Ji,Zhiyong123;Liu,Jie123;Wang,Shizhao123;Guo,Xiaofu123;Li,Fei123;Wang,Jing123;Bi,Jingtao123;. An efficient electrodialysis metathesis route to recover concentrated NaOH-NH4Cl products from simulated ammonia and saline wastewater in coal chemical industry. Separation and Purification Technology, 2022, 301 , .
[8] Wang,Xu1;Du,Yawei13;Liu,Jie123;Xu,Fan1;Ji,Zhiyong123;Guo,Xiaofu123;Li,Fei123;Yuan,Junsheng1234;. Modeling and simulation of continuous electrodialysis metathesis process for conversion of Na2SO4 to K2SO4. Desalination, 2022, 528 , .
[9] Cui,Wei-Zhe123;Ji,Zhi-Yong123;Tumba,Kaniki34;Zhang,Zhong-De35;Wang,Jing123;Zhang,Zhao-Xiang123;Liu,Jie123;Zhao,Ying-Ying123;Yuan,Jun-Sheng123;. Response of salinity gradient power generation to inflow mode and temperature difference by reverse electrodialysis. Journal of Environmental Management, 2022, 303 , .
[10] 刘杰,李梦匣,袁俊生,纪志永,赵颖颖,王士钊,郭小甫,李非. 一种萃取法去除甲醇制烯烃急冷水中蜡质的方法. , 2020, 河北工业大学, CN112678912A 2021.04.20.