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王存海
北京科技大學能源與環境工程學院

王存海,男,北京科技大學能源與環境工程學院副教授。

人物簡歷

教育經歷

2007.09-2011.07 哈爾濱工業大學,能源學院,熱能與動力工程,學士

2011.07-2013.07 哈爾濱工業大學,能源學院,動力工程及工程熱物理,碩士

2013.07-2018.07 哈爾濱工業大學,能源學院,動力工程及工程熱物理,博士

工作經歷

2015.10-2016.10 University of California Berkeley (加州大學伯克利分校),聯合培養博士

2018.07-2020.12 北京科技大學,能源與環境工程學院,講師

2020.12-2021.07 北京科技大學,能源與環境工程學院,特聘副教授(引進人才)

2021.07--至今 北京科技大學,能源與環境工程學院,副教授(tenured)

研究領域

1. 光熱輻射傳輸:a.輻射傳熱;b.輻射製冷;c.輻射信號;d.極端時間/空間尺度效應.

2. 微納尺度導熱:a.聲子輸運;b.界面熱阻;c.二維材料導熱特性.

3. 耦合流動傳熱:a.納米流體傳熱的多物理場效應;b.太陽能利用中的耦合流動傳熱.

4. 先進數值算法:a.間斷有限元、譜方法、無網格法;b.格子-Boltzmann法、浸沒邊界法;c.蒙特卡洛法、分子動力學方法.

社會兼職

[1] Associate Editor,Frontiers in Thermal Engineering

[2] 中國工程熱物理學會中國製冷學會中國材料研究學會會員

[3] 期刊審稿人:Int. J. Heat Mass Transfer, Int. Commun. Heat Mass Transfer, Int. J. Therm. Sci, J. Quanti. Spectrosc. Radiat. Transfer, J. Energy Storage, J. Build. Eng., Opt. Express, Opt. Lasers Eng.

學術成果

期刊論文

[1] 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.

[2] 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.

[3] 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.

[4] 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.

[5] 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: 1-14, 2021.

[6] 陳浩,王存海*,程子明,魏琳揚,王富強,張欣欣.基於輻射製冷-溫室效應的熱電系統性能分析.物理學報, 70(21): 214401, 2021.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

[12] 王存海*,鄭樹,張欣欣.非規則形狀介質內輻射-導熱耦合傳熱的間斷有限元求解.物理學報, 69(3): 034401, 2020.

[13] 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.

[14] 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高被引論文)

[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.

[16] 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.

[17] 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.

[18] 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.

[19] 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.

[20] 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.

[21] 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.

[22] 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.

[23] 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.

[24] 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.

[25] 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.

[26] 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.

[27] 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. (導師一作)

[28] 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. (導師一作)

[29] 王存海, 易紅亮, 談和平.間斷有限元法求解一維矢量輻射傳輸. 工程熱物理學報, 38(4): 833-840, 2017.

發明專利

1. 王存海,張禧龍,方悅,等.一種基於輻射製冷-溫室效應的溫差發電裝置,發明專利,ZL202011272766.7.

2. 王存海,馮岩岩.具有顯著方向選擇性發射率的多層薄膜結構,發明專利,ZL202110058298.1.

科研項目

主持

1. 國家自然科學基金青年項目,多組分顆粒彌散介質偏振輻射傳輸及光學成像研究,2020.01-2022.12.

2. 中國博士後科學基金面上項目,嵌入式非均勻介質內偏振輻射傳輸機理,2019.01-2020.12.

3. 中央高校基本科研業務費,參與性介質偏振輻射傳輸機理及應用,2018.12-2020.11.

參與

1. 國家自然科學基金重大項目,生物體內液體/顆粒的流動與遷移及調控機制,2019.01-2023.12.(負責人:張欣欣)

2. 國家自然科學基金創新研究群體項目,熱輻射傳輸與流動控制,2012.01-2017.12.(負責人:談和平)

3. 國家自然科學基金優青項目,半透明介質能量輸運,2015.01-2017.12.(負責人:易紅亮)

教學項目

1. 北京科技大學規劃教材項目,《輻射換熱基礎》,2021.6-2023.6,主持.

2. 北京科技大學精品在線開放課程建設項目,《熱工學》,2020.6-2021.6.

在線視頻網址:https://www.icourse163.org/course/USTB-1461799172

獲獎情況

1. 北京市科學技術協會「青年人才托舉工程計劃」(2022-2024年度)入選者,2021.

2. 第三屆北京市大學生節能節水低碳減排社會實踐與科技競賽一等獎,2021.

3. 北京科技大學本科生優秀畢設論文指導教師,2021.

4. 第十一屆「挑戰杯首都大學生課外學術科技作品競賽」北京市一等獎指導教師,2021.

5. 北京科技大學2019-2020年度優秀班主任,2020.

6. 第十三屆「全國大學生節能減排社會實踐與科技競賽」國家級一等獎指導教師,2020.[1]

參考資料