邹路丝

来源:伟德国际1946bv官网    作者:   编辑:mc    发布日期:2024-04-09

姓名:邹路丝

地址:湖北大学化学化工学院C616

Email: lusizou@hubu.edu.cn/15071168323@163.com

工作简历:

1.2020.12-至今湖北大学化学化工学院讲师湖北 武汉

2.2017.08—2020.08博士/研究助理石油回收研发中心美国新墨西哥理工大学Socorro, USA

科研方向和科研成果:

面向膜分离与表面工程技术前沿,围绕膜材料表界面功能化和膜层基体润湿性梯度作用下的传质强化与受控问题,系统研究聚合物基膜材料成型过程中物理与化学相转化理论。以突破聚合物基膜材料成型过程难以功能化限制,建立相转化及表界面功能化新策略为研究目标。为聚合物基膜材料在膜催化、超滤、纳滤、膜蒸馏脱盐、单向传质分离和血液透析等方面的规模化应用提供有益的理论和技术支撑。在聚合物基膜分离材料的设计与制备方面积累了丰富的理论基础和工程技术经验,针对膜分离过程中膜层润湿性梯度作用下与受控、多级膜层架构以及立构复合协同效应构筑功能层等问题,开展了深入的基础理论研究。参与完成美国农垦局等资助的科研项目3项,目前主持聚合物基膜分离相关项目6项。近年来在Journal of membrane science等重要期刊上发表中英文论文20余篇。受聘《胶体与聚合物》、《当代化工研究》和《粘接》杂志编委,受聘SCI期刊Polymers的 Topical Advisory Panel Member和Editorial Board Member.

承担科研项目:

1基于Janus中空纤维膜蒸馏/结晶技术的油田产出水处理,资助方:湖北省教育厅,负责人

2高通量Janus复合膜蒸馏用膜润湿机制研究,资助方:湖北大学, 负责人

3.   新型氨基酸基类肝素分子合成技术, 湖北省功能化学品工程技术研究中心 , 资助方:湖北省功能化学品工程技术研究中心, 负责人

4聚芳砜膜材料血液相容性改善关键技术,资助方:上海翊科聚合物科技有限公司, 负责人

5Development of a Novel Janus-HFM based DCMD Process for Cost-Effective and Energy-Efficient Desalination of High Salinity F/P Water (DWPR R-016, 资助方: The United States Bureau of Reclamation.主要参与

6Development of a Portable and Scalable Hollow Fiber Membrane-Based Ultrafiltration-Nanofiltration (UF-NF) Process for Dairy Wastewater Remediation, 资助方: The State of New Mexico of the United States.主要参与

代表论文:

1.Zou, Lusi*, et al. Desirable PVDF hollow fiber membrane engineered with synergism between small molecular weight additives for DCMD treating of a hypersaline brine. Journal of Water Process Engineering, 45(2022), 102528.

2.Zou, Lusi, et al. Macrovoids-Inhibited PVDF Hollow Fiber Membranes via Spinning Process Delay (SPD) for Direct Contact Membrane Distillation. ACS Appl. Mater. Interfaces ,12(2020), 28655–28668.

3.Zou, Lusi, et al. Novel Janus composite hollow fiber membrane-based direct contact membrane distillation (DCMD) process for produced water desalination. Journal of Membrane Science, 597(2020), 117756.

4.Zou, Lusi, et al. Study of the effective thickness of the water-intrudable hydrophilic layer in dual-layer hydrophilic-hydrophobic hollow fiber membranes for direct contact membrane distillation. Journal of Membrane Science, 615(2020), 118552.

5.Zou, Lusi, et al. Janus Hollow Fiber Membrane-based DCMD Process for Desalination of High-Salinity Oilfield Produced Water [C]. Produced Water Treatment and Reuse in the Upstream Oil and Gas Industry, Water Environment Federation (WEF) Conference, New Orleans, LA, United States (2020). (EI)

6.Zou, Lusi*, et al. Study of a poly(vinylidene fluoride)/hydrophobic silica sol hybrid hollow fiber membrane for treatment of produced water via direct contact membrane distillation. Journal of Water Process Engineering, 44(2021), 102345

7.Zou, Lusi, et al. Crosslinked PVDF based hydrophilic-hydrophobic dual-layer hollow fiber membranes for direct contact membrane distillation desalination: from the seawater to oilfield produced water[J]. Journal of Membrane Science, 619(2021), 118802.

8.Gusnawan, P. J.,Zou, Lusi, Zhang, G., & Yu, J. Performance and stability of a bio-inspired soybean-based solvent for CO2capture from flue gas. Chemical Engineering Journal, 385(2020), 123908.

9.Gusnawan, P. J.,Zou Lusi, Zhang G, & Yu J. Regeneration Behavior of a Sustainable Bio-inspired Soybean-based Solvent for CO2 Capture. ACS Sustainable Chemistry & Engineering, 8(2020), 3929-3937

10. Gusnawan, P. J., Zha, S.,Zou, Lusi., Zhang, G., & Yu, J. Soybean and moringa based green bio-solvents for low-concentration CO2 capture via a hollow fiber membrane contactor. Chemical Engineering Journal, 335(2018), 631-637)

专利:

1.J. Yu,Lusi Zou, P. Gusnawan, G. Zhang, R. Balch. (2020) Methods of Preparing Polyvinylidene Fluoride Hollow Fiber Membranes and Uses in Desalination and Carbon Capture. USA Patent