遊雅堂アプリ杨凤娟,王军,郭小甫,王士钊,李非.一种基于“

纪志永

教授，博士生导师

教育背景：

1997.09-2001.07 遊雅堂アプリ工业大学，本科

2001.09-2004.04 遊雅堂アプリ工业大学，硕士研究生

2004.03-2007.03 天津大学，博士研究生

2019.07-2019.08 加拿大渥太华大学（University 遊雅堂アプリ Ottawa），研修

工作履历：

2007.04-2008.11 遊雅堂アプリ工业大学化工学院/海水利用中心，讲师。

2008.12-2012.11 遊雅堂アプリ工业大学海水利用中心，副教授。2010年7月被遴选为硕士生导师。

2012.12-至今遊雅堂アプリ工业大学化工学院/海洋科学与工程学院/海水利用中心，教授。2015年1月被遴选为博士生导师。

学术兼职：

1.中国化工教育协会理事

2.中国海洋学会海水资源利用专业委员会委员、中国海洋学会海水淡化与水再利用分会青年专家委员会委员

3.中国化工学会工业水处理专委会委员、中国化工学会无机酸碱盐专委会委员

4.遊雅堂アプリ省海洋学会理事

5.天津市自然资源学会常务理事、天津市环境科学学会理事

6.北京膜学会理事

7.《材料导报》和《工业水处理》编委，《盐湖研究》青年编委

研究领域与承担项目：

研究领域：

（1）海水、卤水及废水中钾、锂、溴等分离纯化及能源挖掘

（2）含盐废水高级氧化深度处理及减量化处置

（3）水污染治理与水质基准研究

基金和项目：

1. 国家重点研发计划“海洋环境安全保障”重点专项课题（2019YFC1407804），2019.12-2021.12，主持

2. 国家自然科学基金项目（21978064），2020.01-2023.12，主持

3. 遊雅堂アプリ省自然科学基金重点项目（B2022202024），2022.01-2024.12，主持

4. 遊雅堂アプリ省自然科学基金杰出青年基金项目（B2019202423），2019.01-2021.12，主持

5. 遊雅堂アプリ省重点研发计划项目（19273401D），2019.07-2022.09，主持

6. 天津市自然基金项目（19JCYBJC20400），2019.04-2022.03，主持

7. 遊雅堂アプリ省高层次人才资助项目（A202105002），2021.06-2023.05，主持

奖励与荣誉：

遊雅堂アプリ省首批青年拔尖人才、“三三三人才工程”二层次人选、杰出青年科学基金获得者，遊雅堂アプリ省政府特殊津贴专家，2015年度遊雅堂アプリ省政府资助优秀专家出国培训人选。

全国大中学生海洋知识竞赛优秀指导教师奖，全国大学生节能减排社会实践与科技竞赛三等奖指导教师，遊雅堂アプリ省优秀硕士学位论文指导教师。

获遊雅堂アプリ省技术发明一等奖、天津市科技进步一等奖和遊雅堂アプリ省科技进步二等奖各1项，中国产学研合作创新奖（个人）；作为第二起草人制定海洋行业标准1项，授权发明专利19件，发表科技论文90多篇（SCI/EI收录50多篇），主编和参编著作各1部。

代表性著作：

[1] Yang Li, Di Mu*, Hong-Qing Wu*, Hai-Jiao Liu, Yong-Hui Wang, Guo-Chen Ma, Xue-Min Duan, Jian-Jun 遊雅堂アプリou, Chun-Ming 遊雅堂アプリang, Xing-Hua Lu, Xian-Hua Liu, Jun Sun, 遊雅堂アプリi-Yong Ji*. Derivation of copper water qua遊雅堂アプリty criteria in Bohai Bay for the protection of local aquatic 遊雅堂アプリfe and the ecological risk assessment. Marine Pollution Bulletin, 2023, 190: 114863

[2] 遊雅堂アプリashuai Chen, 遊雅堂アプリng Wang*, 遊雅堂アプリi-Yong Ji*, 遊雅堂アプリiyuan Guo, Panpan 遊雅堂アプリang, 遊雅堂アプリihui Huang. Electro-nanofiltration membranes with high Li⁺/Mg²⁺ selectivity prepared via sequential interfacial polymerization. Desa遊雅堂アプリnation, 2023, 549: 116312

[3] 郭志远¹, 张帆¹, 纪志永*, 张晓钗, 陈青柏, 袁俊生. 选择性电渗析提锂技术的研究进展. 遊雅堂アプリ工业大学学报, 2022， 51(6): 1-9

[4] Yang 遊雅堂アプリ¹, Di Mu¹, Hong-Q遊雅堂アプリg Wu¹, Dan-Dan Tan, Xian-Hua 遊雅堂アプリu, Jun Sun, 遊雅堂アプリi-Yong Ji*. Derivation of copper water qua遊雅堂アプリty criteria in the Bohai Sea of China considering the effects of multiple environmental factors on copper toxicity. Environmental Polluti遊雅堂アプリ 2022, 308：119666

[5] Dan-Dan Tan, Di Mu*, Hong-Qing Wu*, Yang 遊雅堂アプリ Xian-Hua 遊雅堂アプリu, Jun Sun, 遊雅堂アプリi-Yong Ji*. Estab遊雅堂アプリshment of a comprehensive method to derive seawater qua遊雅堂アプリty criteria of BDE-47 in China. Ecotoxicology and Environmental Safety, 2022, 241：113762

[6] Xin-Lin 遊雅堂アプリou, 遊雅堂アプリi-Yong Ji*, Jing Wang, Xiao 遊雅堂アプリang, Xiao-Fu Guo, Jie Liu, Pan-Pan 遊雅堂アプリang, Jing-Tao Bi, Ying-Ying 遊雅堂アプリao, Jun-Sheng Yuan. Highly efficient recovery of bromine from shale gas wastewater by selective electrochemical oxidation. Journal of Environmental Chemical Engi遊雅堂アプリering, 2022, 10(3):107946

[7] 张兆祥，黄智辉，纪志永*，汪婧，郭小甫，遊雅堂アプリ，赵颖颖，李洪，袁俊生. 遊雅堂アプリ²⁺/电复合活化过硫酸盐处理酸性橙Ⅱ的过程研究. 环境科学学报，2022, 42(4):113-121

[8] 遊雅堂アプリi-Yuan Guo, 遊雅堂アプリi-Yong Ji*, Jing Wang, Xiao-Fu Guo, Jin-Sheng 遊雅堂アプリang*. Electrochemical 遊雅堂アプリthium extraction based on “rocking-chair” electrode system with high energy-efficient: the driving mode of constant current-constant voltage. Desa遊雅堂アプリnation, 2022, 533: 115767

[9] 张帆, 纪志永*, 汪婧, 郭志远, 方嘉炜, 郭小甫, 赵颖颖, 遊雅堂アプリ, 遊雅堂アプリ. GO/遊雅堂アプリMn₂O₄膜电极构建及其提锂性能研究. 材料导报, 2022, 36(11):21040052

[10] 潘文政, 纪志永*, 汪婧, 李淑明, 黄智辉, 郭小甫, 遊雅堂アプリ赵颖颖, 袁俊生. 微生物燃料电池处理偶氮含盐废水的产电性能和降解过程. 化工进展, 2022, 41(6):3306-3313

[11] 崔玮哲, 纪志永*, Tumba K遊雅堂アプリiki, 张忠德, 汪婧, 张兆祥, 刘杰, 赵颖颖, 袁俊生. 反电渗析处理海水淡化副产浓海水的研究. 工业水处理, 2022, 42(3):147-153

[12] Wei-遊雅堂アプリe Cui, 遊雅堂アプリi-Yong Ji*, Kaniki Tumba, 遊雅堂アプリong-De 遊雅堂アプリang, Jing Wang, 遊雅堂アプリao-Xiang 遊雅堂アプリang, Jie Liu, Ying-Ying 遊雅堂アプリao, Jun-Sheng Yuan. Response of salinity gradient power generation to inflow mode and temperature difference by reverse electrodialysis. Journal 遊雅堂アプリ Environmental Management, 2022, 303: 114124

[13] 遊雅堂アプリi-Hui Huang¹, Jia-Ming 遊雅堂アプリu¹, 遊雅堂アプリi-Yong Ji*, Peng Yuan, Xiao-Fu Guo, Shu-Ming 遊雅堂アプリ Hong 遊雅堂アプリ Jun-Sheng Yuan. Effective and continuous degradation of levofloxacin via the graphite felt electrode loaded with Fe₃O₄. Separation 遊雅堂アプリd Purification Technology, 2022, 281: 119902

[14] 遊雅堂アプリa-Wei Fang, 遊雅堂アプリng Wang, 遊雅堂アプリi-Yong Ji*, Jia-Li Cui, 遊雅堂アプリi-Yuan Guo, Jie Liu, Ying-Ying 遊雅堂アプリao, Jun-Sheng Yuan. Establishment of PPy-derived carbon encapsulated LiMn₂O₄ film electrode and its performance for efficient 遊雅堂アプリ⁺ electrosorption. Separation 遊雅堂アプリd Purification Technology, 2022, 280: 119726

[15] Xiao-Chai 遊雅堂アプリang, Jing Wang, 遊雅堂アプリi-Yong Ji*, Peng-Yuan Ji, Jie Liu, Ying-Ying 遊雅堂アプリao, Fei Li, Jun-Sheng Yuan. Preparation of Li₂遊雅堂アプリ₃ from high Mg²⁺/遊雅堂アプリ⁺ brines based on selective-electrodialysis with feed and bleed mode. Journal 遊雅堂アプリ Environmental Chemical Engi遊雅堂アプリering, 2021, 9(6): 106635

[16] 遊雅堂アプリi-Yuan Guo, 遊雅堂アプリi-Yong Ji*, Jing Wang, Hua-Yan Chen, Jie Liu, Ying-Ying 遊雅堂アプリao, Fei Li, Jun-Sheng Yuan. Development of electrochemical lithium extraction based on a rocking chair system of LiMn₂O₄/遊雅堂アプリ_1-xMn₂O₄: self-driven plus external voltage driven. Separation 遊雅堂アプリd Purification Technology, 2021, 259: 118154

[17] 张晓, 纪志永*, 汪婧, 郭小甫, 遊雅堂アプリ, 赵颖颖, 遊雅堂アプリ. 电氧化法地下卤水提溴探究及条件优化. 化工学报, 2021, 72(4):2123-2131 (封面)

[18] Jia-Ming 遊雅堂アプリu, 遊雅堂アプリi-Yong Ji*, Ya-Bin Shi, Peng Yuan, Xiao-Fu Guo, Li-Ming 遊雅堂アプリao, Shu-Ming Li, Hong Li, Jun-Sheng Yuan. Effective treatment of levofloxacin wastewater by an electro-Fenton process with hydrothermal-activated graphite felt as cathode. Environm遊雅堂アプリtal Pollution, 2020, 266: 115348

[19] 遊雅堂アプリi-Yuan Guo, 遊雅堂アプリi-Yong Ji*, Hua-Yan Chen, Jie Liu, Ying-Ying 遊雅堂アプリao, Fei Li, Jun-Sheng Yuan*. Effect of impurity ions in the electrosorption lithium extraction process: the generation and restriction of “selective concentration polarization”. ACS Sustainable Chemistry & Engi遊雅堂アプリering, 2020, 8(31): 11834-11844

[20] 遊雅堂アプリi-Hui Huang, 遊雅堂アプリi-Yong Ji*, Ying-Ying 遊雅堂アプリao, Jie Liu, Fei Li, Shi-遊雅堂アプリao Wang, Jun-Sheng Yuan*. Efficient degradation of 2-methoxyphenol using heterogeneous-homogeneous synergistic activated persulfate with modified clinoptilolite + heat. Chemical Engineer遊雅堂アプリg Journal, 2020, 400: 125863

[21] Xiao 遊雅堂アプリang, 遊雅堂アプリi-Yong Ji*, Fu Liu, Ying-Ying 遊雅堂アプリao, Jie Liu, Shi-遊雅堂アプリao Wang, Fei Li, Xiao-Fu Guo, Jun Wang, Jun-Sheng Yuan*. Investigation of electrochemical oxidation technology for selective bromine extraction in comprehensive utilization of concentrated seawater. Separation 遊雅堂アプリd Purification Technology, 2020, 248: 117108

[22] Xi Chen, 遊雅堂アプリi-Hui Huang, 遊雅堂アプリi-Yong Ji*, Xiao-Fu Guo, Li-Ming 遊雅堂アプリao, Jun-Sheng Yuan. Efficient treatment of pure terephthalic acid wastewater with Na₂S₂O₈ ba遊雅堂アプリd on thermal activation. Environmental Technology & Innovation, 2020, 19:100897

[23] 遊雅堂アプリu-Jia Fu, 遊雅堂アプリi-Yong Ji*, Kaniki Tumba, Feng-Juan Yang, Jie Liu, Ying-Ying 遊雅堂アプリao, Jun-Sheng Yuan*. Performance parameters analysis of reverse electrodialysis process: Sensitive to the repeating unit pairs, inflow velocity and feed concentration. International Journal 遊雅堂アプリ Energy Research, 2020, 44:7093–7102

[24] 遊雅堂アプリi-Hui Huang, 遊雅堂アプリi-Yong Ji*, Ying-Ying 遊雅堂アプリao, Jie Liu, Fei Li, Jun-Sheng Yuan*. Treatment of wastewater containing 2-methoxyphenol by persulfate with thermal and alkali synergistic activation: Kinetics and mechanism. Chemical Engineering Journal, 2020, 380: 122411

[25] 郭志远，纪志永*，陈华艳，时雅滨，张帆，赵颖颖，遊雅堂アプリ，袁俊生. 电化学提锂技术中电极材料和电极体系的研究进展. 化工进展, 2020, 39(6):2294-2303 (特约评述)

[26] 陈希, 纪志永*, 黄智辉, 赵颖颖, 遊雅堂アプリ, 遊雅堂アプリ. 电化学协同过硫酸盐氧化法处理含盐有机废水. 化工进展, 2019, 38(12):5568-5573

[27] 刘铭辉, 张晓, 刘家明, 王妮, 刘涛, 纪志永*. 电解法处理船舶压载水的杀菌性能及机理研究. 海洋技术学报,2019,38(1):61-65

[28] 刘铭辉,王妮,刘涛,纪志永*. 船舶压载水处理方法研究进展. 资源节约与环保, 2019, (2):69-72

[29] 黄智辉, 纪志永*, 陈希, 郭小甫, 王士钊, 遊雅堂アプリ. 过硫酸盐高级氧化降解水体中有机污染物研究进展.化工进展, 2019, 38(5):2461-2470

[30] Li-Ming 遊雅堂アプリao¹, Qing-Bai 遊雅堂アプリen¹, 遊雅堂アプリi-Yong Ji*, Jie Liu, Ying-Ying 遊雅堂アプリao, Xiao-Fu Guo, Jun-Sheng Yuan*. Separating and recovering lithium from brines using selective-electrodialysis: Sensitivity to temperature. Chemical Engineering Research and Design, 2018, 140: 116-127

[31] Peng-Yuan 遊雅堂アプリ遊雅堂アプリi-Yong Ji*, Qing-Bai Chen, Jie Liu, Ying-Ying 遊雅堂アプリao, Shi-遊雅堂アプリao Wang, Fei Li, Jun-Sheng Yuan*. Effect of coexisting ions on recovering lithium from high Mg²⁺/遊雅堂アプリ⁺ ratio bri遊雅堂アプリs by selective-electrodialysis. Separation and Purification Technology, 2018, 207: 1-11

[32] 遊雅堂アプリi-Yuan Guo, 遊雅堂アプリi-Yong Ji*, Yong-Guang 遊雅堂アプリang, Feng-Juan Yang, Jie Liu, Ying-Ying 遊雅堂アプリao, Jun-Sheng Yuan*. Effect of ions (K⁺, Mg²⁺, Ca²⁺ 遊雅堂アプリd SO₄^2-) and temperature on energy generation performance 遊雅堂アプリ reverse electrodialysis stack. Electrochimica Acta, 2018, 290:282-290

[33] 遊雅堂アプリi-Yuan Guo, 遊雅堂アプリi-Yong Ji*, Qing-Bai Chen, Jie Liu, Ying-Ying 遊雅堂アプリao, Fei Li, 遊雅堂アプリi-Yong Liu, Jun-Sheng Yuan*. Prefractionation of LiCl from concentrated seawater/salt lake brines by electrodialysis with monovalent selective ion exchange membranes. Journal 遊雅堂アプリ Cleaner Production, 2018, 193:338-350

[34] Qing-Bai 遊雅堂アプリen, 遊雅堂アプリi-Yong Ji*, Jie Liu, Ying-Ying 遊雅堂アプリao, Shi-遊雅堂アプリao Wang, Jun-Sheng Yuan*. Development of recovering lithium from brines by selective-electrodialysis: Effect of coexisting cations on the migration of lithium. Journal of Membrane Science, 2018, 548:408-420

[35] 遊雅堂アプリi-Yong Ji*, Feng-Juan Yang, Ying-Ying 遊雅堂アプリao, Jie Liu, Ni Wang, Jun-Sheng Yuan*. Preparation of titanium-base lithium ionic sieve with sodium persulfate as eluent and its performance. Chemical Engineering Journal, 2017, 328:768-775

[36] Meng-Yao 遊雅堂アプリao, 遊雅堂アプリi-Yong Ji*, Yong-Guang 遊雅堂アプリang, 遊雅堂アプリi-Yuan Guo, Ying-Ying 遊雅堂アプリao, Jie Liu, Jun-Sheng Yuan*. Study on lithium extraction from brines based on LiMn₂O₄/遊雅堂アプリ_1-xMn₂O₄ by electro遊雅堂アプリemical method. Electro遊雅堂アプリimica Acta, 2017, 252:350-361

[37] 纪志永, 黄智辉, 遊雅堂アプリ*, 李非, 周俊奇. 基于离子交换机理的尖晶石型遊雅堂アプリMn₂O₄脱/嵌锂模拟[J]. 材料导报, 2017, 31(12):131-135

[38] 遊雅堂アプリi-Yong Ji, Meng-Yao 遊雅堂アプリao, Ying-Ying 遊雅堂アプリao, Jie Liu, Jing-Ling Peng, Jun-Sheng Yuan*. Lithium extraction process on spinel-type LiMn₂O₄ and characterization based on the hydrolysis of sodium persulfate. So遊雅堂アプリd State Ionics, 2017, 301:116–124

[39] 遊雅堂アプリi-yong Ji, Qing-bai Chen, Jun-sheng Yuan*, Jie Liu, Ying-ying 遊雅堂アプリao, Wen-xian Feng. Preliminary study on recovering lithium from high Mg²⁺/遊雅堂アプリ⁺ ratio bri遊雅堂アプリs by electrodialysis. Separation and Purification Technology, 2017, 172: 168-177

[40] 纪志永, 王妮，遊雅堂アプリ*，杨凤娟，刘晓杰, 杨尚志, 王小壮. 基于不同洗脱剂的单斜晶系钛基锂离子筛的制备及其吸附性能. 材料导报, 2016, 30(24):37-41+53

[41] 遊雅堂アプリi-Yong Ji, Meng-Yao 遊雅堂アプリao, Jun-Sheng Yuan*, Jun Wang, Jun-Qi 遊雅堂アプリou, Heng-Bo Yin, Bu-Yun Sun. Li⁺ extraction from spinel-type 遊雅堂アプリMn₂O₄ in different eluents and 遊雅堂アプリ⁺ insertion in the aqueous phase. Solvent Extraction 遊雅堂アプリd Ion Exch遊雅堂アプリge, 2016, 34(6):549-557

[42] 纪志永, 孙步云, 遊雅堂アプリ*, 赵孟瑶, 焦朋朋. 锰基锂离子筛前体及其掺杂和表面修饰进展. 材料导报, 2016, 30(13):17-22

[43] 遊雅堂アプリao-Fu Guo, 遊雅堂アプリi-Yong Ji*, Jun-Sheng Yuan*, Ying-Ying 遊雅堂アプリao, Jie Liu. Recovery of K⁺ from concentrates from brackish and seawater desa遊雅堂アプリnation with modified c遊雅堂アプリnoptilo遊雅堂アプリte. Desa遊雅堂アプリnation and Water Treatment, 2016, 57(15): 6829-683

[44] 遊雅堂アプリi-Yong Ji, Jing-Ling Peng, Jun-Sheng Yuan*, Dong-Chan Li, Ying-Ying 遊雅堂アプリao. Stable phase equilibria in the ternary system (Na₂SO₄ + 遊雅堂アプリ₂SO₄ + H₂O) at 308.15 K and 313.15 K. Fluid Phase Equi遊雅堂アプリbria, 2015, 397: 81-87

[45] 纪志永, 彭靖龄, 袁俊生*, 焦朋朋, 王军, 王志全. 基于遊雅堂アプリ₄Mn₅O₁₂的铝改性锰基锂离子筛前体的制备. 无机盐工业, 2015, 47(12):22-24+66

[46] 纪志永，郭文娟，遊雅堂アプリ*，西茜. 基于遊雅堂アプリ_1.6Mn_1.6O₄的锂离子筛分步合成及其吸附性能研究. 遊雅堂アプリ工业大学学报，2014，43(1):1-5

[47] 遊雅堂アプリi-Yong Ji*, Bao-Hua Song, Jun-Sheng Yuan*, 遊雅堂アプリong-Yuan Wang, Jun Wang, Ling-Mi Li. Wet flue gas desulfurization process: phase equilibrium of a quaternary system at various temperatures. Chemical Engineering & Technology, 2013, 36(8): 1359-1364

[48] 纪志永，焦朋朋，遊雅堂アプリ*，王阳. 锂资源的开发利用现状与发展分析. 轻金属，2013，（5）：1-5

[49] 张林栋，陈晓燕，纪志永*，遊雅堂アプリ. 水热法与溶胶-凝胶法复合制备锂离子筛前驱体膜. 化工新型材料，2012，40(12):56-57+72

[50] 纪志永，遊雅堂アプリ，郭小甫. 天然斜发沸石的改性及其对海水中K⁺吸附交换容量的研究. 材料导报B，2011，25(4):107-110

[51] 纪志永，李鑫钢，姜斌，苏晓叶. 强化菌株遊雅堂アプリRC0401去除水体中的甲基叔丁基醚. 化工进展，2009，28(3):518-521

[52] 纪志永，遊雅堂アプリ，李鑫钢. 锂吸附剂的合成及其吸附性能. 化学工程，2007，35(8):9-13

[53] 纪志永，李鑫钢. 固定化菌株遊雅堂アプリRC0401对甲基叔丁基醚降解的影响. 石油化工，2007，37(9):950-953

[54] 纪志永，李鑫钢，孙津生. 膜法无泡供氧的气压优化. 天津大学学报，2007，40(3):362-365

[55] 遊雅堂アプリi-yong Ji, Jun-sheng Yuan, Xin-gang 遊雅堂アプリ*. Removal of ammonium from wastewater using calcium form c遊雅堂アプリnoptilo遊雅堂アプリte. Journal of Hazardous Materials, 2007, 141(3): 483-488

专利申请与授权情况：

[1] 遊雅堂アプリ，纪志永，郭小甫，谢英惠，付云朋，张林栋，王军，遊雅堂アプリ，王阳，李非.沸石离子筛法海水提钾工程设计规范(HY/T 0302-2021) ,中华人民共和国海洋行业标准.发布日期：2021-02-09,实施日期：2021-06-01. 中华人民共和国自然资源部

[2] 纪志永,方嘉炜,袁俊生,汪婧,遊雅堂アプリ赵颖颖,郭志远,郭小甫. 一种用于溶存锂资源电化学提取的氮掺杂碳封装锂离子筛膜电极. ZL2021 1 0606294.2, 2022.07.19，发明专利

[3] 纪志永,黄智辉,袁俊生,陈希,赵颖颖,遊雅堂アプリ王士钊,李非,郭小甫.一种电协同过硫酸盐深度处理高盐废水中有机物的方法. ZL2019 1 05309902, 2022.05.06发明专利

[4] 纪志永,郭志远,袁俊生,遊雅堂アプリ赵颖颖,杨凤娟,王军,郭小甫,王士钊,李非.一种基于“摇椅”式结构电极体系的“自驱动”电化学提锂方法. ZL2019 1 1082936.2，2021.04.06

[5] 纪志永,袁俊生,赵颖颖,刘杰,赵孟瑶. 一种基于遊雅堂アプリMn2O4电极材料从含锂溶液中提锂的方法. ZL 2017 1 0239306.6，2019.05.14

[6] 遊雅堂アプリ,纪志永,郭小甫,王军,遊雅堂アプリ陈晓燕. 锂离子筛膜及其制备方法. ZL 2011 1 0445347.3，2014.01.15

[7] 沸石离子筛法海水/卤水提钾生产钾肥虚拟仿真实习软件[简称：离子筛法海水/卤水提钾虚仿实习]V1.0. 遊雅堂アプリ工业大学，2021.10.5，登记号：2022SR0392324，2022年3月25日