刘治鲁

籍贯：山东省临沂市

邮箱：liuzhilu@hust.edu.cn

座右铭：I can and I will.

教育经历及荣誉

l 2014.10 -- 2018.6 本科就读于东北大学 冶金学院 新能源科学与工程专业

国家奖学金，辽宁省优秀毕业生，沈阳市优秀大学生等

l 2018.9 — 2020.6 硕士就读于华中科技大学 能源与动力工程学院 新能源科学与工程专

优秀学生一等奖学金，校优秀研究生干部，校三好研究生等

l 2020.9 —至今 硕博连读就读于华中科技大学 能源与动力工程学院 新能源科学与工程专业

优秀学生一等奖学金，校三好研究生，校社会活动积极个人等

研究方向

l 吸附式热泵中工质对的筛选与性能研究

l 金属有机骨架气体吸附的高通量筛选研究

发表文章

[1] Zhilu Liu#, Chun Wu#, Liang Niu, et al. Post-treatment method for the synthesis of monodisperse binary FePt-Fe3O4 nanoparticles [J]. Nanoscale research letters, 2017, 12(1): 1-6.

[2] Xiaoxiao Xia#, Meng Cao#, Zhilu Liu, et al. Elucidation of adsorption cooling characteristics of Zr-MOFs: Effects of structure property and working fluids [J]. Chemical Engineering Science, 2019, 204: 48-58.

[3] Zhilu Liu#, Wei Li#, Hao Liu, et al. Research progress of high-throughput computational screening of metal-organic frameworks [J]. Acta Chimica Sinica, 2019, 77(4): 323-339.

刘治鲁, 李炜, 刘昊 等. 金属有机骨架的高通量计算筛选研究进展[J]. 化学学报, 2019, 77(4): 323-339. (期刊2020年度最优影响力论文奖)

[4] Xiaoxiao Xia, Zhilu Liu, Song Li*. Adsorption characteristics and cooling/heating performance of COF-5 [J]. Applied Thermal Engineering, 2020, 176: 115442.

[5] Zhilu Liu, Wei Li, Peyman Z. Moghadam, et al. Screening adsorbent–water adsorption heat pumps based on an experimental water adsorption isotherm database [J]. Sustainable Energy & Fuels, 2021, 5(4): 1075-1084.

[6] Wen Ren#, Xudong Zhuang#, Zhilu Liu, et al. Hydrogen adsorption performance of Cu-BTC/graphene aerogel composite: A combined experimental and computational study [J]. International Journal of Hydrogen Energy, 2021, 46(24): 13097-13105.

[7] Zhilu Liu#, Guliang An#, Xiaoxiao Xia, et al. The potential use of metal–organic framework/ammonia working pairs in adsorption chillers [J]. Journal of Materials Chemistry A, 2021, 9: 6188-6195.

[8] Wei Li#, Zhilu Liu# and Song Li. The optimal step locations for high-performance adsorption heat pumps under various working conditions [J]. Thermal Science and Engineering Progress, 2021, 25: 101033.

[9] Guoliang An#, Xiaoxiao Xia#, Shaofei Wu, Zhilu Liu, et al. Metal–organic frameworks for ammonia‐based thermal energy storage [J]. Small, 2021: 2102689.

[10] Zhilu Liu, Wei Li, ShanShan Cai, et al. Screening versatile water/adsorbent working pairs for wide operating conditions of adsorption heat pumps [J]. Sustainable Energy & Fuels, 2022, 6(2): 309-319.

[11] Zhilu Liu#, Xinbo Wang#, Yuexin Liu, et al. Computational screening of metal-organic frameworks for ammonia capture from humid air [J]. Microporous and Mesoporous Materials, 2022, 331: 111659.

[12] Xinbo Wang, Zhilu Liu, Ganggang Li, et al. High-efficiency capture of ammonia using hierarchically porous Zr-MOF nanoarchitectures under ambient conditions: Thermodynamics, kinetics, and mechanisms [J]. Chemical Engineering Journal, 2022, 440: 135764.

[13] Zhilu Liu, Wei Li, ShanShan Cai, et al. Large-scale cascade cooling performance evaluation of adsorbent/water working pairs by integrated mathematical modelling and machine learning [J]. Journal of Materials Chemistry A, 2022, 10(17): 9604-9611.

[14] Tingyu Su, Liwei Wang, Shaofei Wu, Chen Zhang and Zhilu Liu. Molecular simulation for refrigeration based on ZIF-8(Zn)-ammonia sorption [J]. Journal of Refrigeration, 2022, 43(4): 120-128.

苏亭宇, 王丽伟, 吴韶飞, 张宸, 刘治鲁. 锌基-MOFs 对氨吸附制冷性能的分子模拟研究 [J]. 制冷学报, 2022, 43(4): 120-128.

[15] Yanan Zhao#, Zhilu Liu#, Mingliang Li, et al. Screening adsorbent-working solution pairs for adsorption-driven osmotic heat engines based on experimental water adsorption isotherm database and machine learning [J]. Process Safety and Environmental Protection, 2022, 168: 22-31.

[16] Wei Li, Zhilu Liu, Weixiong Wu, et al. Molecular understanding of the impacts of structural characteristics on ethanol adsorption performance for adsorption heat pumps [J]. Molecular Systems Design & Engineering, 2023, 8: 733-742.

[17] Dongchen Shen, Zhilu Liu, Zhengkai Tu, et al. Understanding hydrogen adsorption performance of lithium-doped MIL-101 (Cr) by molecular simulations: Effects of lithium distribution [J]. International Journal of Hydrogen Energy, 2023, 48(48): 18366-18374.

[18] Yichen Wang, Hao Chen, Zhilu Liu, et al. Improved adsorption desalination performance of DUT-67 by incorporating Graphene Oxide (GO) [J]. Microporous and Mesoporous Materials, 2023, 354: 112554.

[19] Liu Z, Shen D, Cai S, et al. Machine Learning-Assisted Prediction of Water Adsorption Isotherms and Cooling Performance [J]. Journal of Materials Chemistry A, 2023, DOI: 10.1039/D3TA03586G.

申请专利

[1] 一种单分散的FePt/Fe3O4混合纳米颗粒的制备方法，ZL201611067331.2 (发明专利，授权，第三)

[2] 一种抛物柱面可折叠便携式太阳灶，ZL201810002412.7 (发明专利，授权，第二).

[3] 一种热对流发电的太阳灶，ZL201810002769.5 (发明专利，授权，第四)

[4] 便携式可折叠的行李箱，ZL201810003013.2 (发明专利，授权，第五)

[5] 一种竖琴形状的风力发电机，ZL201810002680.9 (授权，第六)

便携式折叠桌，ZL20181003012.8 (发明专利，授权，第六)

[6] 一种多功能便携拱形结构，201810003010.9 (发明专利，公布，第四)

参加会议

[1] 刘治鲁, 李炜, 李松. 吸附式制冷工质对的筛选与性能评价, 中国工程热物理学会2019年传热传质学术会议, 青岛, 10月18-20日, 2019年. (汇报人, 墙报)

[2] 刘治鲁, 李炜, 李松. 吸附式制冷中高适用性吸附剂-水工质对的筛选研究, 中国工程热物理学会2020年工程热力学与能源利用学术会议, 上海, 12月4-6日, 2020年. (汇报人, 口头)

[3] 刘治鲁, 刘岳昕, 李松. 级联吸附式制冷中吸附剂-水工质对的筛选与性能评价, 中国工程热物理学会2021年工程热力学与能源利用学术会议, 长沙, 4月9-10日, 2021年. (汇报人, 口头)

[4] 刘治鲁, 程瑞环, 陈浩, 李松. 吸附式制冷ZIFs-氨工质对的分子模拟筛选研究, 武汉, 12月16-18日, 2022年. (汇报人, 墙报)

[5] Zhilu Liu, Song Li. Large-scale Cascade Adsorption Cooling Performance Evaluation of Adsorbent/Water Working Pairs, The 7th International Conference on Power and Renewable Energy, Shang hai, Sep. 23-26, 2022. (Reporter, oral)