头像

张创

职称:讲师(高校)

毕业院校:华中科技大学

邮件:

办公地点:

职务:

研究方向: 微纳尺度导热、介观数值方法、跨尺度传热流动

个人简介

研究核心是基于动理学理论的多尺度数值方法发展及传热传质应用,采用C/C++编写结构/非结构MPI并行程序,常用介观方法包括合成迭代方法和离散统一气体动理学格式等,应用场景包括微电子设备、微纳机电系统、航天等领域中的多尺度传热传质与跨尺度非平衡输运等;属于工程热物理、计算流体力学、凝聚态物理等学科的交叉,希望与国内外同行多多交流与合作;对芯片散热、数值计算方法、C/C++编程、凝聚态物理、稀薄空气动力学等领域有科研兴趣的本科生,非常乐意与之进行学术交流与合作。目前正与加拿大麦吉尔大学、日本东京大学、首都师范大学、华中科技大学、上海理工大学等国内外科研团队开展芯片电-热-力耦合多尺度传热传质、第一性原理计算-BTE数值模拟-实验相结合、声子/电子流体动力学、电声耦合、数据驱动的深度学习多尺度建模等研究。近年来在International Journal of Heat and Mass Transfer、Applied Thermal Engineering、Materials Today Physics、Physical Review B/E、Applied Physics Letters、Journal of Applied Physics、Journal of Computational Physics、Computers and Mathematics with Applications、Science Bulletin、物理学报、航空学报、Advanced in Aerodynamics等国内外杂志发表了20余篇论文。


单位:杭州电子科技大学-理学院-物理系-能源研究所

学科:动力工程及工程热物理           邮箱:zhangc520@hdu.edu.cn

地址:杭州电子科技大学下沙校区6教南536

Researchgate:https://www.researchgate.net/profile/Chuang-Zhang-8

谷歌学术:https://scholar.google.com/citations?user=sufolxEAAAAJ

教育经历

2012.09-2021.06在华中科技大学能源与动力工程学院获得本科和博士学位

2021.07-2023.07在南方科技大学力学与航空航天工程系开展博士后研究

20238月至今在杭州电子科技大学理学院物理系任职

工作经历
社会职务
研究领域

介观数值方法

合成迭代方法Synthetic iterative scheme,离散统一气体动理学格式Discrete unified gas kinetic scheme等

微纳尺度导热、电子/声子/气体/光子等载能粒子的非平衡输运

声子/电子热输运、电声耦合、声子/电子流体动力学、稀薄气体动力学、光子辐射输运等

微电子设备多尺度传热传质

芯片散热仿真,GAAFET/FinFET等半导体器件的跨尺度热仿真等

AI for science

与首都师范大学、华中科技大学等合作,AI解偏微分方程或多尺度建模等


详细研究内容见微信公众号推送:

https://mp.weixin.qq.com/s/WN2nh_-k_NipKimgg_40ew

高效介观数值方法及非傅里叶导热机理研究

https://mp.weixin.qq.com/s/xVaivbWs8my0Idmw61ubnA

合成迭代方法及其在芯片散热中的潜能

https://mp.weixin.qq.com/s/eiu3igCAXIcdzbF0SQfWRg

教学与课程

热力学与统计物理,应用物理专业,本科生必修课,秋季。

Reference: 

Stephen J. Blundell, Katherine M. Blundell. Concepts in Thermal Physics.

Oxford University Press, 2009.

Kardar Mehran. Statistics Physics of Particles (Fields). 

Cambridge University Press, 2007.

汪志诚热力学与统计物理(第六版).高等教育出版社, 2020.

工程数值分析,能源动力专业,研究生学位课,秋季。

Reference: 

Timothy Sauer. Numerical Analysis. Pearson, 2011.

多尺度流动与传热的数值方法,能源动力专业,研究生选修课,春季。

Reference: 

Kun Xu, Direct Modeling for Computational Fluid Dynamics:Construction and 

Application of Unified Gas-Kinetic SchemesWorld Scientific, 2015.

John D. Anderson, Jr. Computational fluid dynamics: 

the basics with applications.McGraw-Hill, 1995.

Jiri Blazek. Computational Fluid Dynamics: Principles 

and Applications.Elsevier, 2015. 


横向科研
纵向科研

国家自然科学基金理论物理专项, 12147122, 20221-202212, 直接经费18, 主持, 已结题

中国博士后科学基金, 2021M701565, 202111-20236, 直接经费8, 主持, 已结题

国家自然科学基金青年基金项目, 11602091, 20171-201912直接经费20参与/排第二已结题

论文

张创. 跨流域流动的高效隐式DUGKS方法及应用:[本科学位论文]. 武汉:华中科技大学图书馆, 2016.

https://www.researchgate.net/publication/369505786_kualiuyuliudongdegaoxiaoyinshifangfajiyingyongbenkebishe

张创. 声子输运的介观数值方法及非傅里叶导热机理研究:[博士学位论文]. 武汉:华中科技大学图书馆, 2021.

https://www.researchgate.net/publication/351660598_PhD_thesis_written_in_Chinese_zhongwenboshibiyelunwen

 

Arxiv preprint:

Hongyu Liu, Xiaojian Yang, Chuang Zhang, Xing Ji, Kun Xu*. UGKWP and IUGKP methods for Multi-Scale Phonon Transport with Dispersion and Polarization. 2025, arXiv:2506.16203.

Hongyu Liu, Xiaojian Yang, Chuang Zhang, Xing Ji, Kun Xu*. Implicit unified gas kinetic particle method for steady-state solution of multiscale phonon transport. 2025, arXiv:2506.09465

Hongyu Liu, Xiaojian Yang, Chuang Zhang, Xing Ji, Kun Xu*. Unified gas-kinetic wave-particle method for multi-scale phonon transport. 2025, arXiv:2505.09297.

Qingyi Lin, Chuang Zhang, Xuhui Meng*, Zhaoli Guo*. Monte Carlo Physics-informed neural networks for multiscale heat conduction via phonon Boltzmann transport equation. 2024, arXiv:2408.10965.

Ziyang Xin, Yue Zhang, Chuang Zhang, Zhaoli Guo*. Multiscale discrete Maxwell boundary condition for the discrete unified gas kinetic scheme for all Knudsen number flows. 2025, arXiv:2501.05282.

Samuel Huberman*, Chuang Zhang, Jamal Abou Haibeh. On the question of second sound in germanium: A theoretical viewpoint. 2022, arxiv2206.02769.

 

2025:

Chuang Zhang, Ziyang Xin, Qin Lou, Hong Liang*. Effects of heating strategies and ballistic transport on the thermal conduction in fin field-effect transistors. Applied Thermal Engineering, 2025, 271: 126293.

Shuang Peng, Songze Chen, Hong Liang*, Chuang Zhang*. Semi-implicit Lax-Wendroff kinetic scheme for multi-scale phonon transport. Computers and Mathematics with Applications, 2025, 187: 72–84.

Yue Zhang, Chuang Zhang, Xinliang Song, Zhaoli Guo*. Implicit discrete unified gas kinetic scheme for steady flows of binary gas mixtures. Communication in Computational Physics, 2025, 37: 383-419.

Chuang Zhang*, Lei Wu. Theoretical studies of transient hydrodynamic phonon transport in two-dimensional disk geometry. Applied Physics Letters, 2025, 126: 032201.

Xin Qian*, Chuang Zhang, Te-Huan Liu*, Ronggui Yang*. Analytical Green's function of the multidimensional Boltzmann transport equation for modeling hydrodynamic second sound. Physical Review B, 2025, 111: 035406. 

Chuang Zhang, Qin Lou, Hong Liang*. Synthetic iterative scheme for thermal applications in hotspot systems with large temperature variance. International Journal of Heat and Mass Transfer, 2025, 236: 126374.


2024:

Leheng Chen, Chuang Zhang*, Jin Zhao*. Modeling Heat Conduction with Two-Dissipative Variables: A Mechanism-Data Fusion Method. Physical Review E, 2024, 110, 025303.

Chuang Zhang, Rulei Guo, Meng Lian, Junichiro Shiomi*. Electron-phonon coupling and non-equilibrium thermal conduction in ultrafast heating systems. Applied Thermal Engineering, 2024, 249: 123379.

Meng Lian, Chuang Zhang, Zhaoli Guo*, Jing-tao Lü*. Discrete unified gas kinetic scheme for the solution of electron Boltzmann transport equation with Callaway approximation. Physical Review E, 2024, 109, 065310.

 

2023:

吴志鹏, 张创, 胡世谦, 马登科*, 杨诺*. 纳米热点系统中的梯度热导率. 物理学报, 2023, 72(18): 184401.

Xinliang Song, Yue Zhang, Xiafeng Zhou, Chuang Zhang, Zhaoli Guo*. Modified steady discrete unified gas kinetic scheme for multiscale radiative heat transfer. International Journal of Heat and Mass Transfer, 2023, 203, 123799.

Chuang Zhang, Samuel Huberman, Xinliang Song, Jin Zhao, Songze Chen, Lei Wu*. Acceleration strategy of source iteration method for the stationary phonon Boltzmann transport equation. International Journal of Heat and Mass Transfer, 2023, 217: 124715.

 

2022:

Chuang Zhang, Dengke Ma, Xiao Wan, Manyu Shang, Jingtao Lü, Zhaoli Guo*, Baowen Li*, Nuo Yang*. Graded thermal conductivity in 2D and 3D homogeneous hotspot systems. Materials Today Physics, 2022, 22:100605.

Chuang Zhang, Samuel Huberman, Lei Wu*. On the emergence of heat waves in the transient thermal grating geometry. Journal of Applied Physics. 2022, 132:085103.

Chuang Zhang, Lei Wu*. Nonmonotonic heat dissipation phenomenon in close-packed hotspot systems. Physical Review E, 2022, 106:014111.

Jia Liu, Chuang Zhang, Haizhuan Yuan, Wei Su*, Lei Wu*. A fast-converging scheme for the phonon Boltzmann equation with dual relaxation times. Journal of Computational Physics, 2022, 467:111436.

 

2021:

Chuang Zhang, Songze Chen, Zhaoli Guo*, Lei Wu*. A fast synthetic iterative scheme for the stationary phonon Boltzmann transport equation. International Journal of Heat and Mass Transfer, 2021, 174: 121308.

Chuang Zhang, Songze Chen, Zhaoli Guo*.Heat vortices of ballistic and hydrodynamic phonon transport in two-dimensional materials. International Journal of Heat and Mass Transfer, 2021, 176: 121282.

Chuang Zhang, Zhaoli Guo*. A transient heat conduction phenomenon to distinguish the hydrodynamic and (quasi) ballistic phonon transport. International Journal of Heat and Mass Transfer, 2021, 181: 121847.

 

2020:

Man-Yu Shang, Chuang Zhang, Zhaoli Guo*, Jing-Tao Lü*. Heat vortex in hydrodynamic phonon transport of two-dimensional materials. Scientific Reports. 2020, 10:8272.

Chuang Zhang, Zhaoli Guo, Songze Chen*. Radial thermal rectification in concentric silicon ring from ballistic to diffusive regime. International Journal of Heat and Mass Transfer, 2020, 153: 0017-9310.

Chuang Zhang, Meng An, Zhaoli Guo, Songze Chen*. Perturbation theory of thermal rectification. Phys. Rev. E, 2020, 102:042106.

Xinliang Song, Chuang Zhang, Xiafeng Zhou, Zhaoli Guo*. Discrete unified gas kinetic scheme for multiscale anisotropic radiative heat transfer. Advances in Aerodynamics (2020) 2:3.

 

2019:

Chuang Zhang, Zhaoli Guo, Songze Chen*. An implicit kinetic scheme for multiscale heat transfer problem accounting for phonon dispersion and polarization. International Journal of Heat and Mass Transfer, 2019, 130: 1366-1376.

Chuang Zhang, Zhaoli Guo*. Discrete unified gas kinetic scheme for multiscale heat transfer with arbitrary temperature difference. International Journal of Heat and Mass Transfer, 2019, 134: 1127-1136.

姚博,张创,郭照立*.考虑分子转动自由度的离散统一气体动理学格式.航空学报,2019, 40 (7): 122914.

 

2017:

Chuang Zhang, Zhaoli Guo, Songze Chen*. Unified implicit kinetic scheme for steady multiscale heat transfer based on the phonon Boltzmann transport equation. Physical Review E, 2017, 96(6): 063311.

Songze Chen*, Chuang Zhang, Lianhua Zhu, Zhaoli Guo. A unified implicit scheme for kinetic model equations. Part I. Memory reduction technique. Science Bulletin 2017, 62:119–129.

著作
专利成果
荣誉及奖励
软件成果