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林炎海
作者: 点击数: 时间:2018-03-12 08:53:12

林炎海 个人简历

◆个人简介

林炎海,男,博士,福建平和人,现为华侨大学数学科学学院副教授。

◆ 人才梯队、荣誉:

应用数学团队成员。

计算科学福建省高校重点实验室成员。

泉州市高层次人才第四层次。

◆主持科研项目:

a. 2018.01-2020.12,国家自然科学基金青年项目

拟塑性非牛顿纳米薄液膜流动传热传质过程研究,11702101,20万;

b. 2017.10-2021.10,华侨大学中青年教师科技创新资助计划培育型项目

拟塑性纳米流体反常输运过程机理研究,ZQN-PY502,40万;

c. 2017.01-2017.12,国家自然科学基金数学天元青年基金

旋转圆盘上非牛顿纳米流体Marangoni边界层数值解研究,11626106,3万;

d. 2014.10-2017.10,华侨大学人才引进基金

稳定的非牛顿流体Marangoni对流流动传输机理研究,14BS310,3万。

◆ 学习经历:

2009年7月毕业于北京科技大学数理学院数学与应用数学专业(导师:郑连存教授)

2014年7月毕业于北京科技大学机械工程学院动力工程及工程热物理专业(导师:郑连存教授)

◆工作简历:

2014.07—2017.12华侨大学数学科学学院讲师

2018.01—至今华侨大学数学科学学院副教授

◆近五年教学情况(含本科教学、研究生教学):

为本科生主讲课程有《经济数学—微积分》与《线性代数》;目前,指导2017级硕士生一名。

◆研究领域及成果:

一直从事非牛顿流体力学、传热传质和非线性微分方程的研究工作,研究兴趣包括非牛顿流体力学、流体力学、传热传质过程、微纳流体传输过程、偏微分方程组初边值问题、微分方程数值解与近似解析解、近代数学相似理论、同伦摄动方法(HAM)、微分变换方法(DTM)、微重力流体力学、薄液膜流动传输过程、分数阶微分方程、打靶法以及牛顿迭代法、摄动法等方面,属于应用数学、力学与热能工程交叉学科。在本学科方向的《International Journal of Heat and Mass Transfer》、《ASME Journal of Heat Transfer》、《Powder Technology》、《Applied Mathematics and Mechanics》等发表相关学术论文近20篇。

◆发表论文目录:

[1]Yanhai Lin*, Yongyue Jiang. Effects of Brownian motion and thermophoresis on nanofluids in a rotating circular groove: A numerical simulation.International Journal of Heat and Mass Transfer(2018),https://doi.org/10.1016/j.ijheatmasstransfer.2018.02.103. (Elsevier, Impact factor: 3.458)

[2] Botong Li*, Wei Zhang*, Liangliang Zhu,Yanhai Lin, Bin Bai. Effects of nanoparticle migration on non-Newtonian nanofluids in a channel with multiple heating and cooling regions.International Journal of Heat and Mass Transfer107 (2017) 836-845. (Elsevier, Impact factor: 3.458)

[3] Liancun Zheng*, Chengru Jiao,Yanhai Lin, Lianxi Ma. Marangoni convection heat and mass transport of power-law fluid in porous medium with heat generation and chemical reaction.Heat Transfer Engineering38 (6) (2017) 641-652. (Taylor & Francis, Impact factor: 1.235)

[4]Yanhai Lin*, Liancun Zheng, Lianxi Ma. Heat transfer characteristic of thin film power-law liquid films over horizontal stretching sheet with internal heating and variable thermal coefficient.Applied Mathematics and Mechanics (English Edition)37 (12) (2016) 1587-1596. (Springer, Impact factor: 1.205)

[5] Botong Li*, Wei Zhang*, Bin Bai,Yanhai Lin, Ge Kai. On rheological characteristics of non-Newtonian nanofluids in the material forming process.Microfluidics and Nanofluidics20 (11) (2016) 154. (Springer, Impact factor: 2.344)

[6]Yanhai Lin*, Botong Li, Liancun Zheng, Goong Chen. Particle shape and radiation effects on Marangoni boundary layer flow and heat transfer of copper-water nanofluid driven by an exponential temperature.Powder Technology301 (2016) 379-386. (Elsevier, Impact factor: 2.942)

[7] Botong Li*,Yanhai Lin, Liangliang Zhu, Wei Zhang*. Effects of non-Newtonian behaviour on the thermal performance of nanofluids in a horizontal channel with discrete regions of heating and cooling.Applied Thermal Engineering94 (2016) 404-412. (Elsevier, Impact factor: 3.444)

[8]Yanhai Lin, Liancun Zheng*, Botong Li, Xinxin Zhang. Magnetohydrodynamic thin film and heat transfer of power law fluids over an unsteady stretching sheet with variable thermal conductivity.Thermal Science20 (6) (2016) 1791-1800. (Serbia, Impact factor: 1.093)

[9] Chengru Jiao, Liancun Zheng*,Yanhai Lin, Lianxi Ma, Goong Chen. Marangoni abnormal convection heat transfer of power-law fluid driven by temperature gradient in porous medium with heat generation.International Journal of Heat and Mass Transfer92 (2016) 700-707. (Elsevier, Impact factor: 3.458)

[10]Yanhai Lin*, Liancun Zheng, Botong Li, Lianxi Ma. A new diffusion for laminar boundary layer flow of power law fluids past a flat surface with magnetic effect and suction or injection.International Journal of Heat and Mass Transfer90 (2015) 1090-1097. (Elsevier, Impact factor: 3.458)

[11]Yanhai Lin, Liancun Zheng*, Xinxin Zhang. MHD Marangoni boundary layer flow and heat transfer of pseudo-plastic nanofluids over a porous medium with a modified model.Mechanics of Time – Dependent Materials19 (2015) 519-536. (Springer, Impact factor:1.014)

[12]Yanhai Lin*, Liancun Zheng. Marangoni boundary layer flow and heat transfer of copper-water nanofluid over a porous medium disk.AIP Advances5 (107225) (2015) 1-15. (AIP, Impact factor: 1.568)

[13]Yanhai Lin, Liancun Zheng*, Xinxin Zhang, Lianxi Ma, Goong Chen. MHD pseudo-plastic nanofluid unsteady flow and heat transfer in a finite thin film over stretching surface with internal heat generation.International Journal of Heat and Mass Transfer84 (2015) 903-911. (Elsevier, Impact factor: 3.458)

[14]Yanhai Lin*, Liancun Zheng, Goong Chen. Unsteady flow and heat transfer of pseudo-plastic nanoliquid in a finite thin film on a stretching surface with variable thermal conductivity and viscous dissipation.Powder Technology274 (2015) 324-332. (Elsevier, Impact factor: 2.942)

[15]Yanhai Lin, Liancun Zheng*, Xinxin Zhang. Radiation effects on Marangoni convection flow and heat transfer in pseudo-plastic non-Newtonian nanofluids with variable thermal conductivity.International Journal of Heat and Mass Transfer77 (2014) 708-716. (Elsevier, Impact factor: 3.458)

[16]Yanhai Lin, Liancun Zheng*, Junhong Zhang. Marangoni convection flow and heat transfer of power law nanofluids driven by temperature gradient with modified Fourier’s law.International Journal of nonlinear sciences and numerical simulation15(6) (2014) 337-345. (De Gruyter, Impact factor: 0.890)

[17]Yanhai Lin, Liancun Zheng*, Xinxin Zhang. Magnetohydrodynamics thermocapilly Marangoni convection heat transfer of power-law fluids driven by temperature gradient.Journal of Heat Transfer135(051702) (2013) 1-6. (ASME, Impact factor: 1.866)

[18] Liancun Zheng*,Yanhai Lin, Xinxin Zhang. Marangoni convection of power law fluids driven by power-law temperature gradient. Journal of The Franklin Institute-Engineering and Applied Mathematics 349 (8) (2012) 2585-2597. (Elsevier, Impact factor: 3.139)

[19]Yanhai Lin*, Liancun Zheng, Xinxin Zhang. Marangoni convection flow and heat transfer in pseudoplastic non-Newtonian nanofluids with radiation effects and heat generation or absorption effects.AIP Conference Proceedings1479 (2012) 50-53. (AIP, Conference Report)

◆主要学术成果、创新点

本人的研究方向属于应用基础交叉学科,结合数理科学、数值计算方法、非牛顿流体力学、传热传质学、材料学等领域,将近代数学的相似变换理论、偏微分方程的数值求解方法以及非线性微分方程近似求解方法(主要是同伦摄动分析方法)用于传热传质过程的求解与分析。主要研究两个工程问题: 非牛顿纳米流体Marangoni边界层传输问题与薄液膜的流动传输过程。

◆学术影响:

根据Researchgate数据,https://www.researchgate.net/profile/Yanhai_Lin

Citations: 358,h-index: 9,h-index(excluding self-citations): 9

ASCI同行引用:

Yanhai Lin, Liancun Zheng, Xinxin Zhang, Lianxi Ma, Goong Chen. MHD pseudo-plastic nanofluid unsteady flow and heat transfer in a finite thin film over stretching surface with internal heat generation.International Journal of Heat and Mass Transfer84 (2015) 903-911.多次热点论文,多次ESI高被引论文,被SCI引用92次,第一作者。

Yanhai Lin, Liancun Zheng, Xinxin Zhang. Radiation effects on Marangoni convection flow and heat transfer in pseudo-plastic non-Newtonian nanofluids with variable thermal conductivity.International Journal of Heat and Mass Transfer77 (2014) 708-716.多次ESI高被引论文,被SCI引用78次,第一作者。

Botong Li,Yanhai Lin, Liangliang Zhu, Wei Zhang. Effects of non-Newtonian behavior on the thermal performance of nanofluids in a horizontal channel with discrete regions of heating and cooling.Applied Thermal Engineering94 (2016) 404-412.多次ESI高被引论文,被SCI引用13次,第二作者。

B.组织和参加国际会议情况:

(1)、2013.08参加“2013年中国力学大会”,在非牛顿流体力学专题上做报告。地点:西安交通大学

(2)、2012.11参加“2012年中国工程热物理学会传热传质学术会议暨国家自然科学基金传热传质领域项目进展交流会议”。地点:东莞理工学院。

(3)、2012.10参加“2012年数值分析与应用数学大会”,在第7届流体流动与传热数值分析主会场做报告,宣读的学术论文在AIP上发表并且被ISTP检索。地点:希腊科斯岛。

C.学术兼职:

曾经担任EnergyInternational Journal of Heat and Mass TransferPhysics of FluidsPowder TechnologyJournal of the Taiwan Institute of Chemical EngineersSuperlattices and MicrostructuresJournal of the Brazilian Society of Mechanical Sciences and EngineeringAbabian Journal for Science and EngineeringKorean Journal of Chemical EngineeringAIP AdvancesThe European Physical Journal PlusJournal of Porous MediaThermal Science等多个SCI杂志的审稿工作。

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