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学习工作简历:
教育经历:
2007.09-2011.07 哈尔滨工业大学,能源集团,热能与动力工程,学士
2011.07-2013.07 哈尔滨工业大学,能源集团,动力工程及工程热物理,硕士
2013.07-2018.07 哈尔滨工业大学,能源集团,动力工程及工程热物理,博士
科研工作经历:
2015.10-2016.10 University of California Berkeley (加州大学伯克利分校),联合培养博士
2018.07-2020.12 集团,澳门威尼斯官网,团队博士后
2020.12-2021.07 集团,澳门威尼斯官网,特聘副教授(引进人才)
2021.07--至今 集团,澳门威尼斯官网,副教授(tenured)
研究领域:多尺度高效能量传输与利用(Multiscale Efficient Energy Transport and Utilization,MEETU)
1、热辐射:a. 微纳结构热辐射特性调控;b. 近场辐射换热;c. 光热辐射传输.
2、热传导:a. 微纳尺度导热;b.界面热阻和接触热阻;c.极端近场辐射-导热换热.
3、热对流:a.纳米流体传热;b.太阳能利用中的耦合流动传热;c.热对流的多物理场效应.
4、多尺度数值算法:a.间断有限元、谱方法;b.格子-Boltzmann法、浸没边界法;c.蒙特卡洛法、分子动力学方法.
5、空天热辐射能量利用:a. 天空辐射制冷原理和技术;b. 太阳能利用原理和技术;c.新能源材料结构设计和利用.
公司产品:
硕士培养:每年招收硕士研究生2~3人.
基本要求:对学术感兴趣,有良好的科研素养(重要);对生活有热情,有健康的作息方式(很重要);对人生有规划,有正派的生活作风(非常重要).
欢迎有志于从事多尺度耦合传热、新能源材料、生物热物理、物理光学等领域基础和应用研究的同学申报,课题组提供自由开放的科研氛围以及出国交流机会(包括UC Berkeley,UCLA,UW Seattle等国际名校),欢迎你的加入!
本科生课程:
1. 太阳能转换原理与技术(专业核心课,48学时)
研究生课程:
1. 高等传热学(辐射换热部分)(学科专业课,48学时)
社会兼职:
1. 中国工程热物理学会会员、中国制冷学会会员、中国材料研究学会会员
2. Associate Editor, Frontiers in Thermal Engineering; Guest Editor, Energies.
3. 期刊审稿人:Joule, Int. J. Heat Mass Transfer, JQSRT, Phys. Fluids等.
期刊论文(第一/讯通):
[40] Wang CH *, Chen H, Jiang ZY, Zhang XX, Wang FQ†. Modelling and performance evaluation of a novel passive thermoelectric system based on radiative cooling and solar heating for 24-hour power generation, Applied Energy, 331: 120425, 2023.
[39] Wang CH *, Chen H, Jiang ZY, Zhang XX. Design and experimental validation of an all-day passive thermoelectric system via radiative cooling and greenhouse effects, Energy, 263: 125735, 2023.
[38] Wang CH *, Zhang XY, Pan CC, Jiang ZY. Unified discontinuous Galerkin finite element framework for conjugated radiation-conduction heat transfer. Physical Review E, 107, 045303, 2023.
[37] Ymeli GL, Wang CH *. Generalized lattice Boltzmann method for radiative transfer problem in slab and irregular graded-index media, Physical Review E, 107: 015302, 2023.
[36] Zhang XY, Wang CH *. Development and application of discontinuous Galerkin method for solidification problems in a semitransparent medium-filled cavity, Journal of Energy Storage, 2023.
[35] Ymeli GL, Liu X, Tapimo R, Wang CH *. Transient radiative transfer in two graded-index slabs adhered by an infinitely thin vacuum via the lattice Boltzmann method, International Journal of Heat and Mass Transfer, 211: 124228, 2023.
[34] Fokou A, Tchinda R, Ymeli GL, Lazard M, Wang CH *. Estimating of the radiance in atmosphere-ocean systems with different atmosphere models by discrete spherical harmonics method, ASME Journal of Heat and Mass Transfer, 145: 052802, 2023.
[33] Wang CH *, Liu MX, Jiang ZY. TiO2 particle agglomeration impacts on radiative cooling films with a thickness of 50 μm, Applied Physics Letters, 121 (20): 121, 202204, 2022.
[32] Wang CH *, Chen H, Jiang ZY, Zhang XX. Refractive index impacts on polarized signals from a homogeneous Rayleigh scattering medium exposed to oblique irradiation. International Communications in Heat and Mass Transfer, 139: 106434, 2022.
[31] Wang CH *, Zhang XY, Jiang ZY. Discontinuous finite element method for transient conductive heat transfer in layered media with thermal contact resistance, International Communications in Heat and Mass Transfer, 138: 106344, 2022.
[30] Wang CH *, Liu ZY, Jiang ZY, Zhang XX. Double-diffusive convection in a magnetic nanofluid-filled porous medium: Development and application of a non-orthogonal lattice Boltzmann model, Physics of Fluids, 34 (6): 062012, 2022.
[29] Wang CH *, Liu ZY, Jiang ZY, Zhang XX. Numerical investigations of convection heat transfer in a thermal source-embedded porous medium via a lattice Boltzmann method. Case Studies in Thermal Engineering, 30: 101758, 2022.
[28] Feng YY, Wang CH *, Xiang Y*, Zhang XX. Internal thermal source effects on convection heat transfer in a two-dimensional porous medium: A lattice Boltzmann study. International Journal of Thermal Sciences, 173: 107416, 2022.
[27] Feng YY, Wang CH *. On the performance of a MRT lattice Boltzmann algorithm for transient radiative transfer problems. International Communications in Heat and Mass Transfer, 128: 105628, 2021.
[26] Wei L, Li G, Wang CH *, Zhang WJ. Determination of gradient index based on laser beam deflection by stochastic particle swarm optimization, Applied Physics B, 127: 131, 2021.
[25] Wei L, Li G, Song M, Wang CH *. Study on dynamic thermal behavior of PCM-filled double glazing unit under solar irradiation, International Journal of Energy Research, 11: 20672-20685, 2021.
[24] 陈浩,王存海*,程子明,魏琳扬,王富强,张欣欣.基于辐射制冷-温室效应的热电系统性能分析.物理学报, 70(21): 214401, 2021.
[23] Wang CH *, Wu XH, Wang FQ, Zhang XX. Optimization design of a multilayer structure for broadband and direction-selective emissivity. ES Energy & Environment, 11: 84-92, 2021.
[22] Feng YY, Wang CH *. Discontinuous finite element method applied to transient pure and coupled radiative heat transfer. International Communications in Heat and Mass Transfer, 122: 105156, 2021. (ESI高被引论文)
[21] Wang CH *, Feng YY, Yang YH, Ben X, Zhang XX. Square pulse effects on polarized radiative transfer in an atmosphere-ocean model. Optics Express, 28(13): 18713-18727, 2020.
[20] Wang CH *. Calculated radiance errors induced by neglecting the polarization of the irradiation beam exposed to an atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer, 250: 106995, 2020.
[19] Wang CH *, Feng YY, Yang YH, Zhang Y, Yue K, Zhang XX. Chebyshev collocation spectral method for polarized radiative transfer and its application to two-layered media. Journal of Quantitative Spectroscopy and Radiative Transfer, 243: 106822, 2020.
[18] 王存海*,郑树,张欣欣.非规则形状介质内辐射-导热耦合传热的间断有限元求解.物理学报, 69(3): 034401, 2020.
[17] Liu XC, Huang Y*, Wang CH *, Zhu KY. Solving steady and transient radiative transfer problems with strong inhomogeneity via a lattice Boltzmann method. International Journal of Heat and Mass Transfer, 155: 119714, 2020.
[16] Wang CH *, Feng YY, Yue K, Zhang XX. Discontinuous finite element method for combined radiation-conduction heat transfer in participating media. International Communications in Heat and Mass Transfer, 108: 104287, 2019. (ESI高被引论文)
[15] Wang CH *, Feng YY, Ben X, Yue K, Zhang XX. Time-dependent polarized radiative transfer in an atmosphere-ocean system exposed to external illumination. Optics Express, 27(16): A981-A994, 2019.
[14] Wang CH *, Feng YY, Yue K, Zhang XX, Zhang Y, Yi HL. Polarized radiative transfer in complex media exposed to external irradiation. Journal of Quantitative Spectroscopy and Radiative Transfer, 225: 166-179, 2019.
[13] Wang CH *, Feng YY, Yue K, Zhang XX. Discontinuous finite element method with unstructured meshes for polarized radiative transfer in irregular media. OSA Continuum, 2(4): 1474-1487, 2019.
[12] Feng YY, Wang CH *. Discontinuous finite element method with a local numerical flux scheme for radiative transfer with strong inhomogeneity. International Journal of Heat and Mass Transfer, 126: 783-795, 2018.
[11] Wang CH *, Liu HY. Discontinuous Galerkin finite element method for radiative heat transfer in two-dimensional media with inner obstacles. Numerical Heat Transfer-Part A, 73(11): 806-822, 2018.
[10] Wang CH, Qu L, Zhang Y, Yi HL. Three-dimensional polarized radiative transfer simulation using the discontinuous finite element method. Journal of Quantitative Spectroscopy and Radiative Transfer, 208: 108-124, 2018.
[9] Wang CH, Feng YY, Zhang Y, Yi HL, Tan HP. Transient/time-dependent radiative transfer in a two-dimensional scattering medium considering the polarization effect. Optics Express, 25(13): 14621-14634, 2017.
[8] Wang CH, Yi HL, Tan HP. Transient polarized radiative transfer analysis in a scattering medium by a discontinuous finite element method. Optics Express, 25(7): 7418-7442, 2017.
[7] Wang CH, Yi HL, Tan HP. Discontinuous finite element method for vector radiative transfer. Journal of Quantitative Spectroscopy and Radiative Transfer, 189: 383-397, 2017.
[6] Wang CH, Zhang Y, Yi HL, Xie M. Analysis of transient radiative transfer induced by an incident short-pulsed laser in a graded-index medium with Fresnel boundaries. Applied Optics, 56(7): 1861-1871, 2017.
[5] 王存海, 易红亮, 谈和平.间断有限元法求解一维矢量辐射传输. 工程热物理学报, 38(4): 833-840, 2017.
[4] Wang CH, Zhang Y, Yi HL, Tan HP. Transient radiative transfer in two-dimensional graded index medium by Monte Carlo method combined with the time shift and superposition principle. Numerical Heat Transfer-Part A, 69(6): 574-588, 2016.
[3] Wang CH, Ai Q, Yi HL, Tan HP. Transient radiative transfer in a graded index medium with specularly reflecting surfaces. Numerical Heat Transfer-Part A, 67(11): 1232-1252, 2015.
[2] Yi HL*, Wang CH, Tan HP. Transient radiative transfer in a complex refracting medium by a modified Monte Carlo simulation. International Journal of Heat and Mass Transfer, 79: 437-449, 2014. (导师一作)
[1] Yi HL*, Wang CH, Tan HP, Zhou Y. Radiative heat transfer in semitransparent solidifying slab considering space-time dependent refractive index. International Journal of Heat and Mass Transfer, 55(5-6): 1724-1731, 2012. (导师一作)
更多内容详见个人学术主页:https://www.researchgate.net/profile/Cun_Hai_Wang
发明专利:
1. 王存海,陈姿颖,董明宇,等.一种全天候取水装置及取水方法,发明专利.
2. 王存海,张禧龙,方悦,等.一种基于辐射制冷-温室效应的温差发电装置,发明专利.
3. 王存海,冯岩岩.具有显著方向选择性发射率的多层薄膜结构,发明专利.
4. 陈姿颖,董明宇,王存海.一种新型蓄热电式窗帘,实用新型专利.
竞赛获奖:
1. 第十五届全国老员工节能减排社会实践与科技竞赛国家级一等奖指导教师,2022.
2. 第十六届中国制冷空调行业老员工科技竞赛国家级二等奖指导教师,2022.
3. 第三届北京市老员工节能节水低碳减排社会实践与科技竞赛一等奖指导教师,2021.
4. 第十一届挑战杯首都老员工课外学术科技作品竞赛一等奖指导教师,2021.
5. 第十三届全国老员工节能减排社会实践与科技竞赛国家级一等奖指导教师,2020.
科研项目:
主持:
1. 国家自然科学基金青年项目,多组分颗粒弥散介质偏振辐射传输及光学成像研究,2020.01-2022.12.
2. 中国博士后科学基金面上项目,嵌入式非均匀介质内偏振辐射传输机理,2019.01-2020.12.
3. 中央高校基本科研业务费,参与性介质偏振辐射传输机理及应用,2018.12-2020.11.
参与:
1. 国家自然科学基金重大项目,生物体内液体/颗粒的流动与迁移及调控机制,2019.01-2023.12.(负责人:张欣欣)
2. 国家自然科学基金创新研究群体项目,热辐射传输与流动控制,2012.01-2017.12.(负责人:谈和平)
3. 国家自然科学基金优青项目,半透明介质能量输运,2015.01-2017.12.(负责人:易红亮)
教学项目:
1. 集团规划教材项目,《辐射换热基础》,2021.6-2023.6,主持.
2. 集团精品在线开放课程建设项目,《热工学》,2020.6-2021.6.
在线视频网址:https://www.icourse163.org/course/USTB-1461799172
荣誉称号:
1. 北京市“青年人才托举工程计划”(2022-2024年度)入选者,2021.
2. 集团2021-2022年度十佳班主任,2020-2021年度十佳班主任提名,2019-2020年度优秀班主任(连续三年校级优秀).
3. 集团本科生优秀毕业论文指导教师,2021.
4. 集团2017-2020年度、2021-2022年度优秀工会积极分子.
5. 集团2021年度校运动会3000米第一名(教工组),2021.
