基本资料
胡箫 1992.03生,浙江诸暨人,中共党员,副教授,博士/博士后,硕士生导师/本科生导师,中国力学学会会员。
2021年6月 毕业于浙江大学航空航天学院流体力学专业,师从流体力学专家林建忠教授。
2021年6月 加入600cc大白菜官网,现为能源与动力工程系专任教师。
主要从事海水淡化跨膜反渗透流动,多相流体力学,非牛顿流体力学,微纳米流体力学等方面的教学和科研工作。已发表高质量论文28篇,其中SCI论文21篇,包括Journal of Fluid Mechanics,Desalination,International Journal of Mechanical Science,Physics of Fluids,Separation and Purication Technology,Powder Technology等1区TOP论文3篇,2区10篇,已授权国家发明专利5项,国家实用新型专利6项。
学术兼职:应用数学与力学,宁波大学学报的青年编委,International Journal of Mechanical Science, Desalination, Physics of Fluids, Soft Matter, Journal of Natural Gas Science and Engineering等国际SCI期刊审稿人。
主要研究方向
● 方向1,海水淡化多尺度跨膜流动的传热传质特性研究
淡水是国家经济和社会发展极其重要的战略物资,地球上各类形态水中,能被直接利用的淡水资源仅占全球水量的0.3%,而海水则高达97.47%,因此海水淡化技术被认为是最可持续获取淡水的方式。海水淡化的产水能力取决于膜组件的水力特性、输入压力和推动压差,关键是保证脱盐效果前提下,将主要研究浓度边界层和温度边界层对跨膜流动规律,分析被截留的盐离子水合物对海水淡化膜的影响,比较导流网的材料和结构对降低浓差极化影响,分析跨膜传热传质特性,提出降低膜组件的推动压差、提高淡水分离通量和盐分截留率的方法。
反渗透膜法海水淡化工艺原理 海水淡化工艺
● 方向2,多相流体力学
通过直接数值模拟方法和微流控芯片实验平台,研究牛顿流体和非牛顿流体中颗粒迁移的机理。通过对颗粒迁移特性研究,无需外加电场力、磁力或设计复杂通道结构,就能高效操控、分离筛选固体颗粒和生物细胞,可应用于高速成像、颗粒在液滴中的精确包裹控制,大幅提高颗粒计数和分离效率,具有高通量、简单易操作的优点。
微流控芯片
● 方向3,仿生流体力学
数千万年来,生物进化产生了各类适应生存的特殊结构特征,受到生物特殊的微结构启发,通过仿生技术结合流体力学理论,开展仿生微结构中的流动机理研究,用于水处理,微流控芯片以及海水淡化技术。
微流控芯片仿生实验平台
● 方向4,微纳米多孔介质中多相流动特征
主要从事多孔介质渗流力学的实验研究,分析在如反渗透膜、纳滤膜以及页岩等微纳米尺度多孔介质中的渗流、传热和传质规律。
微纳米多孔膜结构的SEM图
获奖情况
1. 本人获1次浙江省优秀博士学位论文,1次浙江大学优秀博士学位论文,2次浙江省优秀毕业生、1次浙大优秀毕业研究生奖学金,2次浙大优秀研究生,1次浙大三好研究生,1次浙大岑可法一等奖学金,1次航天学科奖学金等奖项;
2. 指导本科生获批国家级和省级科研训练项目各1项;指导研究生获教育厅项目1项,获校一等奖学金。
3. 指导研究生获得国家奖学金2人次。
2. 国家自然科学基金,非牛顿流体中非圆球颗粒迁移及自组织特性研究,主持,在研;
3. 浙江省自然科学基金,浓度边界层作用下多尺度跨膜反渗透特性研究,主持,在研;
4. 浙理工科研启动基金,导流网作用下海水淡化跨膜反渗透机理研究,主持,在研;
5. 横向项目,消防离心泵水力设计,主持,在研。
发表论文
近三年以第一作者或通讯作者*发表论文列表
26.Xiao Hu, et al., Motion of micro-swimmers over a cavity in a micro-channel, Soft matter, 2024,(三区)已录用.
25.林培锋,王蕊,胡箫,工程流体力学叙事型课堂设计及实施研究,力学与实践, 2024,已录用.
24.林雍杰,李鑫宇,胡箫*,等.串联双圆柱流致振动响应特性研究,水动力学研究与进展,已录用
23. Xinyu Li,Xiao Hu* et al., Hydrodynamic effects of the elliptical spacer filament on the flow and mass transfer in a desalination membrane channel, Physics of Fluids, 2024, 36, 023617二区TOP.
22. Peifeng Lin, Xuefeng Kang,Xiao Hu*, Effect of permeable spacer structure on energy loss and mass transfer in reverse osmosis membrane modules, Separation and Purication Technology, 2024, 330, 125549.一区TOP
21. Peifeng Lin, Wang Rui,Xiao Hu*, et al. The second shear-thinning and strain-stiffening behaviours of bidisperse non-colloidal suspensions, Physics of Fluids, accepted.(SCI,二区TOP, IF= 4.98).
20.Xiao Hu, et al., Comparison of ellipsoidal particle migration in square channel flow of power-law fluids with equivalent spheres, International Journal of Multiphase Flow, 2023, 167, 104565. (SCI,二区,多相流权威期刊, IF= 3.8).
19.Xiao Hu, et al., Hydrodynamic effects of the flow-induced vibrations on the mass transfer and permeate flux in a desalination membrane, Desalination, 2023, 2023, 564, 116710. (SCI,二区TOP, IF= 9.9).
18. Xiao Hu, et al., Self-organizing single-line particle trains with differently shaped particles in a channel flow, Physics of Fluids, 2023, 33, 033312. (SCI,二区TOP, IF= 4.9801).
17.Hu Xiao, et al., Rigid spheroid migration in square channel flow of power-law fluids, International Journal of Mechanical Science, 2023, 274, 108194.(SCI,一区TOP, IF= 7.3).
16. Hui Guan, Peifeng Lin, Sanchuan Yu,Xiao Hu, et al., Hydrodynamic effects of non-uniform feed spacer structures on energy loss and mass transfer in spiral wound module, Journal of Membrane Science, 2023, 673, 121479. (SCI,一区TOP, IF= 9.5).
15.Hu Xiao, Lin Peifeng, Lin Jianzhong, et al., On the polydisperse particles migration and formation of chains in a square channel flow of non-Newtonian fluids. Journal of Fluid Mechanics, 2022, 936, A5. (SCI,流体力学NO. 1,二区Top, IF= 4.2452)
14.Hu Xiao, et al., Pair of particle chain self-organization in a square channel flow of Giesekus viscoelastic fluid, Physics of Fluids, 2022, 34, 113101.(SCI,二区TOP, IF= 4.9801).
13.Hu Xiao, Li Xinyu, Lin Peifeng, et al. Influence of the spacer filament on the flow and mass transfer in reverse osmosis seawater desalination membrane. Physics of Fluids, 2022, 34, 093607 (Editor's Pick, SCI,二区TOP, IF= 4.9801).
12. Lin Peifeng,Hu Xiao*, Lin Jianzhong, Inertial focusing and rotating characteristics of elliptical and rectangular particle pairs in channel flow, Chinese Physics B, 2022, 31, 080501.(SCI,三区, IF= 1.6518).
11.Hu Xiao, Lin Jianzhong, Ku Xiaoke, Inertial migration of circular particles in Poiseuille of power-law fluid. Physics of Fluids, 2019, 31, 073306. (SCI,二区TOP, IF= 4.9801).
10.Hu Xiao, Lin Jianzhong, Guo Yu, Ku Xiaoke, Inertial focusing of elliptical particles and formation of self- organizing trains in a channel flow. Physics of Fluids, 2021, 33, 013310.(Editor's Pick,二区TOP, IF= 4.9801).
9.Hu Xiao, Lin Jianzhong, Guo Yu, Ku Xiaoke, Motion and equilibrium position of elliptical and rectangular particles in a channel flow of a power-law fluid. Powder Technology, 2021, 377, 585-596. (SCI,二区TOP, IF=5.6398).
8.Hu Xiao, Lin Jianzhong, Chen Dongmei, Ku Xiaoke, Dynamics of self-organizing single-line particle trains in channel flow of a power-law fluid. Chinese Journal of Chemical Engineering, 2021, 34: 12-21. (Cover paper,SCI,三区, IF= 3.8981).
7.Hu Xiao, Lin Jianzhong, Chen Dongmei, Ku Xiaoke, Influence of non-Newtonian power law rheology on inertial migration of particles in channel flow. Biomicrofluidics, 2020, 14, 014105, 1-14. (SCI,三区, IF= 3.2582).
6.Hu Xiao, Lin Jianzhong, Chen Dongmei, Ku Xiaoke, Stability condition of self-organizing staggered particle trains in channel flow. Microfluidics and Nanofluidics, 2020, 24:25, 1-12. (SCI,三区, IF= 3.0898).
更多论文详见科研主页:https://www.researchgate.net/profile/Xiao-Hu-76/research
科研动态:https://news.zstu.edu.cn/info/1003/43508.htm
https://mp.weixin.qq.com/s/9VpqFvBylLeqZ6tKMXIa0Q
https://mp.weixin.qq.com/s/k5IeE-tKdiFFqZaqy5Br2g
https://mp.weixin.qq.com/s/k12dOuWMLp206ZBg1sXO-Q
5.一种流固两相输运中的微尺度颗粒直径测定的方法,(专利号:ZL202111025710.6)
4.一种流固两相输运中颗粒定位的方法,(专利号:ZL201910828574.0)
联系方式
●通讯地址:杭州市下沙高教园区2号大街928号浙江理工大学24号楼-509室
●Email: huxiao@zstu.edu.cn
●QQ:1533260825(欢迎对科研感兴趣同学联系。我们共同努力,终将长风破浪)