蔡玲玲,女,汉族,中共党员,博士,副教授,硕士生导师
自治区天池博士、克拉玛依市优秀科技创新人才
教育经历
2008-2012 嘉兴学院本科
2012-2015 湖南工业大学硕士
2015-2020 中南大学博士
工作经历
2020-2021 湖南工业大学 讲师
2021-2023 香港全年免费资料大全 讲师
2023-至今 香港全年免费资料大全 教授、硕士生导师
讲授课程
1. 工程流体力学
2. 过程装备力学基础
研究方向
1. 相变传热传质
2. 多相流理论与分离技术
3. 浆体储能关键技术
科研项目
1.自治区自然科学基金:多场耦合作用下旋风分离器升气管外壁动态结焦机理
2.湖南省教育厅科学研究项目:脉动流作用下冰浆传热传质机理研究
3. 香港全年免费资料大全科研启动基金:流体剪切作用下超疏水表面的油气结焦特性
代表性论文
1. Mi, Sha, Xu Feiyan, Cai Lingling*, Chao Xu. Study on convective melting heat transfer of a solid-liquid phase change slurry in U-shaped curved tubes. International Communications in Heat and Mass Transfer, 2024, 154: 107377. ( SCI)
2. Mi Sha, Geng Sasha, Cai Lingling*, Xu Chao. Investigation on the thermal-fluidic characteristics of ice slurry in sinusoidal corrugated plate heat exchangers. Case Studies in Thermal Engineering, 2024,55: 104176. ( SCI)
3. Mi Sha, Liu Jing, Cai Lingling*, Xu Chao. Multi-objective optimization of two-phase ice slurry flow and heat transfer characteristics in helically coiled tubes with RSM and NSGA-II. International Journal of Thermal Sciences, 2024,199: 108942. ( SCI)
4. Mi Sha, Geng Sasha, Cai Lingling*, Xu Chao. Investigation on the flow characteristics of a phase change material slurry in horizontal and U-shaped tubes based on CFD-PBM. Chemical Engineering Research and Design, 2024,201:409-424. ( SCI)
5. Mi Sha, Huang Jinxia, Cai Lingling*, Xu Chao. Multi-objective optimization of heat transfer of ice slurry in corrugated tubes using response surface methodology method and genetic algorithm. International Journal of Heat and Mass Transfer, 2024, 220: 124984. ( SCI)
6. Mi Sha, Cai Lingling*, and Huang Jinxia. Experimental investigation on the particle size distribution characteristics of ice slurry in double-tube heat exchanger. Heat and Mass Transfer, 2023, 59(12): 2231-2240. ( SCI)
7. Cai Lingling, Mi Sha*, Luo Chun. Study on enhanced heat transfer of a phase change material slurry in transverse corrugated tubes. Applied Thermal Engineering, 2023, 226: 120293. ( SCI)
8. 蔡玲玲,米沙,刘志强.冰浆流动过程中冰晶粒径演化规律的实验研究[J].制冷学报,2023,44(05):131-138.
9. Cai Lingling, Mi Sha*, Luo Chun, Liu Zhiqiang. Numerical investigation of hydraulic and heat transfer characteristics of two-phase ice slurry in helically coiled tubes. Energy and Buildings, 2022, 256: 111773. ( SCI)
10. Cai Lingling, Mi Sha*, Luo Chun, Liu Zhiqiang. Numerical investigation on heat and mass transfer characteristics of ice slurry in pulsating flow. International Journal of Heat and Mass Transfer, 2022, 189: 122722. ( SCI)
11. Mi Sha, Cai Lingling *, Luo Chun. Analysis on Flow Resistance of Two-phase Ice Slurry in Pulsating Flow. Chemical Engineering Research and Design, 2022,186:485-496. ( SCI)
12. Cai Lingling, Liu Zhiqiang*, Mi Sha, Luo Chun, Ma Kebo, Yang Sheng. Investigation on flow characteristics of ice slurry in horizontal 90° elbow pipe by a CFD-PBM coupled model. Advanced Powder Technology, 2019, 30(10): 2299-2310. ( SCI)
13. Mi Sha, Liu Zhiqiang*, Luo Chun, Cai Lingling,Zhang Zezong, Li Longquan. A review on preparing new energy ultrafine powder materials by freeze-drying. Drying Technology, 2020, 38(12): 1544-1564.
14. 蔡玲玲,米沙,刘志强*.过冷器表面冰层分离模型研究[J].工程热物理学报,2019,40(05):1160-1168.
15. 蔡玲玲,米沙,刘志强*.管内脉动层流动力学特性研究[J].大连理工大学学报,2018,58(05):464-470.
16. Mi Sha, Cai Lingling, Ma Kebo, Liu Zhiqiang*. Investigation on flow and heat transfer characteristics of ice slurry without additives in a plate heat exchanger. International journal of heat and mass transfer, 2018, 127: 11-20. ( SCI)
17. Xu Dan, Liu Zhiqiang, Cai Lingling, Tang Yifang, Yu Yunxia, Xu Aixiang. A CFD-PBM approach for modeling ice slurry flow in horizontal pipes. Chemical engineering science, 2018, 176: 546-559. ( SCI)
18. Luo Chun, Mi Sha, Zhou Naijun, Liu Zhiqiang, Cai Linngling. Modelling the primary drying stage of the spray freeze drying process based on the non-equilibrium formulation. International Journal of Heat and Mass Transfer, 2022, 188, 122659. ( SCI)
19. Luo Chun, Liu Zhiqiang, Mi Sha, Zhang Zezong, Cai Lingling. Comparison of the Design Space of Products with Different Initial Saturation[J]. Journal of Pharmaceutical Sciences, 2022, 111(3): 717-726.
联系方式
E-mail:[email protected]
办公电话:0990-6633028