师资队伍

教授

动力工程及工程热物理

yuekai@ustb.edu.cn

乐恺

个人信息:

教育及工作经历:

北京科技大学博士学位 工程热物理专业

1994.07-至今北京科技大学院热科学与能源工程系,讲师,副教授,教授

2006.07-2006.12美国德克萨斯大学阿灵顿分校访问学者

2013.01-2014.01美国德克萨斯大学奥斯汀分校访问学者

开设课程:

本科生课程:过程检测与自动控制(双语必修)

研究生课程:现代测控技术、材料热物性及导热分析

研究方向:

1. 工业热物理过程模拟与智能控制

(航空航天、电力、钢铁冶金、煤化工领域流动与传热过程模拟与优化控制,热能回收及污染排放调控,热工过程智能诊断与控制)

2. 微观/宏观能量与物质传递及流体流动

(微/纳尺度能质传递与流动多尺度模拟与实验方法,相变材料与储能技术,热物理测量与控制技术及仪器研发)

3. 医工融合生物传热传质与血液流动

(热物理治疗技术及仪器研发,智慧医疗,纳米机器人药物靶向高效输送,冷热储能材料的临床医学应用)

在顺德创新学院的基础科研条件:

团队依托精准医疗热物理调控技术研发中心建立,团队有教师2人,设备固定资产约600万元,主要仪器设备有:原子力显微镜、傅里叶变换红外光谱仪、高分辨率荧光倒置显微镜、红外热像仪、表面界面张力测量仪、全波长多模式微孔板检测系统、超净实验室和细胞培养室等。团队主要研究方向包括精准医疗热物理调控技术、工业热过程智能诊断与控制、微/纳尺度能质传递与流动多尺度模拟与实验方法、相变材料与储能技术。

依托顺德创新学院科研项目:

纳米药物载体与生物膜相互作用机制及表征,北京科技大学顺德创新学院科技创新专项,2020.1.1-2021.12.31,项目负责人;

微细血管内自组装纳米载药的靶向富集及其调控机制,北京科技大学顺德创新学院科技创新专项,2021.1.1-2022.12.31,参与;

电触觉感知能力受环境影响的测试系统与知识图谱,北京科技大学顺德创新学院科技创新专项,2021.1.1-2022.12.31,项目负责人

代表性成果:

奖励荣誉:

1.2015年,国家科技进步二等奖,“气控热管国家高精度温度源”

2.2014年,中国计量测试学会科技进步一等奖,“高精度钠热管研制及其传热性能研究”

学术成果:

[1] Angqi Wang, Kai Yue, Weishen Zhong, Genpei Zhang, Lei Wang, Hao Wang, Xinxin Zhang. Ligand-receptor interaction in the specific targeting of biomimetic peptide nanoparticles to lysophosphatidylcholine. International Journal of Biological Macromolecules, 2023, Feb, 227: 193-202

[2] Weishen Zhong, Kai Yue, Anqi Wang, Genpei Zhang, Jiaqi Wang, Lei Wang, Hao Wang, Hua Zhang, Xinxin Zhang. Mechanisms of Deformation and Drug Release of Targeting Polypeptides Based on Fibronectin Induction. Colloids and Surfaces B: Biointerfaces, 2022,Nov,16, 10345-10357 (cover )

[3] Kai Yue, Chao Yang, Xiuru Yan, Yu You, Xinxin Zhang. Experimental Investigation of Temperature Influence on Nanoparticl Adhesion in an artificial blood vessel. International Journal of Nanomedicine

[4] Zhang Genpei, Yue Kai, Wang Anqi, et al. Self-assembly and disassembly mechanisms of biomimetic peptides: Molecular dynamics simulation and experimental measurement [J]. International Journal of Biological Macromolecules, 2022,Jun, 209: 785-793,

[5] Kai Yue, Yu You, Chao Yang, Yongjian Niu, Xinxin Zhang. Numerical Simulation of Transport and Adhesion of Thermogenic Nano-Carriers in Microvessels. Soft matter, 2020Feb,16, (45):10345-10357

[6] ]Kai Yue, Jue Tang, Xiaokang Tian, Xinxin Zhang. Gold nanoparticle aggregation in blood: influence of temperature, size, and concentration. Journal of Nanoscience and Nanotechnology, 2018, 18, 1-10

[7] Jue Tang, Kai Yue, Hongzheng Tan, Xiaoxing LV, Xinxin Zhang. Nanoparticle Aggregation in Ionic Solution and Its Effect on Translocation across Cell Membrane. ASME Journal of heat transfer, 2018, 140(1):SI

[8] Liang Chen, Kai Yue, Jun Wang, Xinxin Zhang. A small-plane heat source method for measuring the thermal conductivities of anisotropic materials without influence by the environment, Measurement Science and Technology ,2017,28(7):075002

[9] Kai Yue, Liang Chen, Bitao Jin, Lina Yang, Xinxin Zhang. Thermal Conductivity Measurement of Anisotropic Biological Tissue in Vitro, International Journal of Thermophysics, 2017, 38(6): 92-97

[10] Kai Yue, Jingyang Nan, Xinru Zhang, Jue Tang, Xinxin Zhang. Photothermal Effects of Gold Nanoparticles Induced by Light Emitting Diodes. Applied Thermal Engineering, v99 P1093-1100. April 25, 201

[11] Kai Yue, Chao Yu, Qingchun Lei, Xinxin Zhang. Numerical simulation of effect of vessel bifurcation on heat transfer in the magnetic fluid hyperthermia. Applied Thermal Engineering, 2014, 69(1-2): 11-18

[12] Kai Yue, Shuangbo Zheng, Yunhui Luo, Xinxin Zhang, et al. Determination of 3D temperature distribution for gerromagnetic hyperthermia under Influence of blood flow, Journal of Thermal Biology, 2011. 36(8): 498-50.