徐会金

徐会金 (Huijin Xu)

 

职称:副教授
邮箱:xuhuijin@sjtu.edu.cn

 

研究方向

1. 热能存储及高效利用
2. 多孔介质
3. 纳米流体强化传热
4. 热化学能利用及热化学储能技术

5.低碳能源

 

个人简介

教育背景:
2003-2013,西安交通大学,能动学院,本硕博连读,大学本科、博士

工作经历:
2013-2017,中国石油大学,讲师
2014-2016,上海交通大学,博士后
2016-2017,加州大学,研究助理
2018-至今,上海交通大学,副教授

 

代表性著作

  1. [1]    Huijin Xu, Changying Zhao, Kambiz Vafai. Analysis of Double Slip Model for a Partially Filled Porous Microchannel- an Exact Solution. European Journal of Mechanics / B Fluids 68 (2018) 1–9.
    [2]    Huijin Xu, Zhanbin Xing. The lattice Boltzmann modeling on the nanofluid natural convective transport in a cavity filled with a porous foam, International Communications in Heat and Mass Transfer, Vol.89, 2017, 73-82.
    [3]    Huijin Xu, Changying Zhao, Kambiz Vafai, Analytical Study of Flow and Heat transfer in an Annular Porous Medium Subject to Asymmetrical Heat Fluxes, Heat and Mass Transfer, Vol.53, 2017, 2663-2676.
    [4]    Huijin Xu. Convective Heat Transfer in a Porous-Medium Micro-Annulus with Effects of the Boundary Slip and the Heat-Flux Asymmetry: An Exact Solution, International Journal of Thermal Sciences, 120 (2017) 337-353.
    [5]    Huijin Xu. Performance evaluation of multi-layered porous-medium micro heat exchangers with effects of slip condition and thermal non-equilibrium [J]. Applied Thermal Engineering 116 (2017) 516–527.
    [6]    Huijin Xu, Changying Zhao. Thermal performance of cascaded thermal storage with phase-change materials (PCMs). Part I: steady cases [J]. International Journal of Heat and Mass Transfer, 106(2017): pp932-944.
    [7]    Huijin Xu, Changying Zhao. Thermal performance of cascaded thermal storage with phase-change materials (PCMs). Part II: unsteady cases [J]. International Journal of Heat and Mass Transfer, 106(2017): pp945-957.
    [8]    Huijin Xu, Changying Zhao. Thermal efficiency analysis of the cascaded latent heat cold storage with multi-stage heat engine model [J]. Renewable Energy 86 (2016): pp228-237. 
    [9]    Huijin Xu, Changying Zhao, Zhiguo Xu. Analytical considerations of slip flow and heat transfer through microfoams in mini/microchannels with asymmetric wall heat fluxes [J]. Applied Thermal Engineering 93 (2016): pp15-16.
    [10]    Yao Zhao, Changying Zhao, Zhiguo Xu, Huijin Xu. Modeling metal foam enhanced phase change heat transfer in thermal energy storage by using phase field method [J]. International Journal of Heat and Mass Transfer 99 (2016) 170–181.
    [11]    Huijin Xu, Liang Gong, Shanbo Huang, Minghai Xu. Flow and heat transfer characteristics of nanofluid flowing through metal foams [J]. International Journal of Heat and Mass Transfer 83 (2015): pp399–407.
    [12]    Huijin Xu, Liang Gong, Changying Zhao, Yahui Yang, Zhiguo Xu. Analytical considerations of local thermal non-equilibrium conditions for thermal transport in metal foams [J]. International Journal of Thermal Sciences 95(2015): pp73-87. 2015.9.1
    [13]    Huijin Xu, Liang Gong, Changying Zhao, Ying Yin. Non-equilibrium thermal response of porous media in unsteady heat conduction with sinusoidally-changing boundary temperature [J]. Journal of Heat Transfer 137(2015): pp112601.1-9.
    [14]    Huijin Xu, Changying Zhao. Thermodynamic analysis and optimization of cascaded latent heat storage system for energy efficient utilization [J]. Energy 90 (2015): pp1662-1673.
    [15]    Lin Guo, Huijin Xu*, et al.. Influence of wall roughness models on fluid flowing and heat transfer in microchannels [J]. Applied Thermal Engineering 84(2015) pp.399-408.
    [16]    Huijin Xu, et al.. Numerical investigation on self-coupling heat transfer in a counter-flow double-pipe heat exchanger filled with metallic foams [J]. Applied Thermal Engineering 2014, 66(1-2), pp43-54.
    [17]    Huijin Xu, et al.. Non-equilibrium heat transfer in metal-foam solar collector with no-slip boundary condition [J]. International Journal of Heat and Mass Transfer 76(2014): pp357-365. 2014.9.1
    [18]    Huijin Xu, et al.. Analytical solution of forced convective heat transfer in tubes partially filled with metallic foam using the two-equation model [J]. International Journal of Heat and Mass Transfer 2011, 54(17-18), pp3846-3855. 2011.8
    [19]    Huijin Xu, et al.. Thermal transport analysis in parallel-plate channel filled with open-celled metallic foams [J]. International Communications in Heat and Mass Transfer 2011, 38(7), pp868-873. 2011.8
    [20]    Huijin Xu, et al.. Thermal modeling of forced convection in a parallel plate channel partially filled with metallic foams [J]. Journal of Heat Transfer 2011, 133 (9), pp092603.1-092603.9. 2011.7.27

 

科研项目

1. 纳米流体在金属泡沫内的强化传热及沉积规律的基础研究,国家自然基金,负责人
2. 多孔泡沫相变传热强化及蓄热优化研究,博士后一等基金,负责人
3. 纳米颗粒和多孔介质强化太阳能相变储热研究,山东省优秀中青年奖励基金,负责人

 

发明专利

1. 徐会金,段欣悦,王富强,黄善波,徐明海,一种用于测量流体截面平均温度的金属泡沫混合器, 发明专利
2. 徐会金,赵长颖,徐治国,一种高速射流装置的环状金属泡沫直孔喷嘴, 发明专利
3. 徐会金,巩亮,黄善波,罗璇,徐明海,赵长颖,一种利用LNG冷能的多层式平板冷凝器, 发明专利
4. 徐会金,赵长颖,一种采用金属泡沫的梯级相变蓄热放热一体化装置, 发明专利
5. 徐会金,赵长颖,徐治国,一种以金属泡沫均匀分配流体流量的多通道结构, 发明专利

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