副教授、副研究员

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马兰新

发布日期:2023-03-28 点击数:

1. 基本情况

马兰新,副教授,工学博士,硕士生导师,2020年入选山东大学青年学者未来计划

所在一级学科:动力工程及工程热物理;二级学科:工程热物理

山大教师个人主页:https://faculty.sdu.edu.cn/malanxin/zh_CN/index.htm

Researchgate链接:https://www.researchgate.net/profile/Lanxin-Ma

联系方式:Emailmalanxin@sdu.edu.cnTel0532-58631702

2. 教育经历

2007.09-2011.07:哈尔滨工业大学,热能与动力工程专业,本科生

2011.09-2013.07:哈尔滨工业大学,动力工程及工程热物理专业,硕士研究生

2013.09-2017.12:哈尔滨工业大学,工程热物理专业,博士研究生

3. 工作经历

2022.09-至今:山东大学,古天乐代言太阳集团,光-热辐射研究中心,副教授

2018.03-2022.09:山东大学,古天乐代言太阳集团,光-热辐射研究中心,助理研究员

2018.07-至今:山东大学,古天乐代言太阳集团,博士后

2020.09:入选2020年度山东大学青年学者未来计划

4. 研究方向

研究定位于能源、化工、航天、海洋等领域的光/热辐射问题,结合理论建模、数值模拟和实验测量方法,开展太阳能光热转换与利用、新能源高效综合利用、航天器热控制、大气/海洋遥感探测识别、微纳尺度热辐射等方面的研究工作,具体研究方向包括:

1) 太阳能光//电转换及新能源高效利用技术

2) 大气-海洋光热辐射传输及遥感识别

3) 先进微纳米材料光/热辐射特性理论预测与设计

4) 航天器热分析与热控制技术

5) 微纳米尺度热辐射及热辐射特性测量

6) 复杂颗粒弥散介质体系辐射传输机理及应用

5. 科研项目

[6] 横向项目,纳米颗粒光学特性测量及理论分析研究,2022.06-2023.12,主持。

[5] 国家自然科学基金青年基金,颗粒弥散介质非独立散射判据及其修正方法研究,2019.01-2021.12,主持。

[4] 中国博士后科学基金面上资助项目,黄渤海典型浮游植物的光谱辐射特性及其遥感反演 预测,2021.06-2023.12,主持。

[3] 中国博士后科学基金面上资助项目,近海面跨介质非均匀水体蓝绿激光辐射传输机制研究,2019.11-2022.12,主持。

[2] 山东大学青年学者未来计划,复杂环境背景下颗粒弥散介质标量/矢量辐射传输机制研究,2020.09-2025.08,主持。

[1] 山东大学基本科研业务费项目,考虑颗粒间非独立散射作用的弥散介质辐射传输特性研究,2018.09-2020.12,主持。

6. 主讲课程

本科生:《传热学》、《多物理场建模与仿真》、《节能导论》、《海洋学导论》、《冷库技术》、《Pro/ENGINEER三维建模基础及应用》、《AutoCAD机械制图及工程应用》

研究生:《计算辐射学》、《目标与环境光学特性》

7. 实验条件

隶属于古天乐代言太阳集团光-热辐射研究中心(青岛),配有光谱椭偏仪、傅里叶变换红外光谱仪、高光谱水体吸收衰减测量仪、体散射函数测量仪、光生物反应器、飞行器地面热试验装置、红外热像仪等良好的光-热辐射测量设备及热设计测试设备。

-热辐射研究中心(青岛)http://www.otrc.sdu.edu.cn/

8. 招生信息

每年招收硕士研究生2名。课题组致力于能源、化工、航天、海洋等领域的光/热辐射基础理论和应用研究,提供自由活跃的科研氛围、良好的科研和生活条件,以及国内外学术交流等机会,欢迎能源与动力工程、新能源科学与工程、储能科学与工程、机械类等相关专业的同学申请推免或报考!

联系方式:malanxin@sdu.edu.cnTel0532-58631702

9. 发表论文、著作、专利

2022年至今

[34] Hu Lechuan, Ma Lanxin#, Wang Chengchao, Liu Linhua#. Machine learning-assisted design of polarization-controlled dynamically switchable full-color metasurfaces. Optics Express, 2022, 30(15): 26519-26533.

[33] Zhou Yan, Hu Lechuan, Wang Chengchao#, Ma Lanxin#. Evaluation and design of colored Silicon nanoparticle systems using a bidirectional deep neural network. Nanomaterials, 2022, 12(15): 2715.

[32] Li Xiaoning, Wang Chengchao#, Ma Lanxin, Liu Linhua#. Ellipsometry-transmission measurement of the complex refractive indices for a series of organic solvents in the 200–1700 nm spectral range. Infrared Physics and Technology, 2022, 125:104313.

[31] Ma Lanxin, Hu Lechuan, Jia Chengwei, Wang Chengchao#, Liu Linhua#. Quantitative evaluation of the phase function effects on light scattering and radiative transfer in dispersed systems. Photonics, 2022, 9(8): 584.

2021

[30] Ma Lanxin, Hu Kaixiang, Wang Chengchao, Yang Jiayue, Liu Linhua#. Prediction and inverse design of structural colors of nanoparticle systems via deep neutral network. Nanomaterials, 2021, 11(12): 3339.

[29] Ma Lanxin, Zhai Jinan, Wang Chengchao#. An investigation of the single scattering approximation through direct electromagnetic scattering simulation. OSA Continuum, 2021, 4(9), 2496-2509.

[28] Wang Chengchao, Ma Lanxin#, Liu Linhua#. Spectral radiative properties of seawater-in-oil emulsions in visible-infrared region. Journal of Quantitative Spectroscopy and Radiative Transfer, 2021, 272: 107823.

[27] Li Xingcan#, Lin Li, Xie Bowei, Wu Minghui, Ma Lanxin, Yang Jia-Yue. Optical properties of biochemical compositions of microalgae within the spectral range from 300 to 1700 nm. Applied Optics, 2021, 60(32): 10232-10238

2020

[26] Ma Lanxin, Wang Cunhai, Liu Linhua#. Polarized radiative transfer in dense dispersed media containing optically soft sticky particles. Optics Express, 2020, 28(19): 28252-28268.

[25] Ma Lanxin, Wang Chengchao#. Isosbestic light absorption by metallic dimers: Effect of interparticle electromagnetic coupling. Applied Optics, 2020, 59(4): 1028-1036.

[24] Zhai Jinan, Ma Lanxin, Xu Wenbin, Liu Linhua#. Effect of host medium absorption on the radiative properties of dispersed media consisting of optically soft particles. Journal of Quantitative Spectroscopy and Radiative Transfer, 2020, 254: 107206.

2019

[23] Ma Lanxin, Wang Chengchao#, Tan Jianyu. Light scattering by densely packed optically soft particle systems, with consideration of the particle agglomeration and dependent scattering. Applied Optics, 2019, 58(27): 7336-7345.

[22] Ma Lanxin, Xie Bowei, Wang Chengchao, Liu Linhua#. Radiative transfer in dispersed media: considering the effect of host medium absorption on particle scattering. Journal of Quantitative Spectroscopy and Radiative Transfer, 2019, 230: 24-35.

[21] Wang Chengchao, Ma Lanxin#. Effect of host medium absorption on polarized radiative transfer in dispersed media. Applied Optics, 2019, 58(26): 7157-7164.

[20] Xie Bowei, Ma Lanxin, Zhao Junming, Liu Linhua#. Wang Xinzhi, He Yurong. Experimental study of the radiative properties of hedgehog-like ZnO–Au composite particles. Journal of Quantitative Spectroscopy and Radiative Transfer, 2019, 232: 93-103.

[19] Xie Bowei, Ma Lanxin, Zhao Junming, Liu Linhua#. Dependent absorption property of nanoparticle clusters: an investigation of the competing effects in the near field. Optics Express, 2019, 27(8): A280-A291.

[18] Cheng Ziming, Wang Fuqiang#, Wang Hao, Liang Huaxu, Ma Lanxin. Effect of embedded polydisperse glass microspheres on radiative cooling of a coating. International Journal of Thermal Sciences, 2019, 140: 358-367.

[17] Wang Fuqiang, Wang Hao, Dong Dayang, Cheng Ziming#, Ma Lanxin. Radiative transfer analysis of semitransparent medium with particles having non-uniform size distribution by differential-integration method. International Journal of Heat and Mass Transfer, 2019, 130: 342-355.

2017

[16] Ma Lanxin, Tan Jianyu#, Zhao Junming, Wang Fuqiang, Wang Chengan, Wang Yanyan. Dependent scattering and absorption by densely packed discrete spherical particles: Effects of complex refractive index. Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 196: 94-102.

[15] Ma Lanxin, Tan Jianyu#, Zhao Junming, Wang Fuqiang, Wang Chengan. Multiple and dependent scattering by densely packed discrete spheres: Comparison of radiative transfer and Maxwell theory. Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 187: 255-266.

[14] Wang Fuqiang, Ma Lanxin, Cheng Ziming, Tan Jianyu#, Huang Xing, Liu Linhua. Radiative heat transfer in solar thermochemical particle reactor: A comprehensive review. Renewable and Sustainable Energy Reviews, 2017, 73: 935-949.

[13] Wang Fuqiang, Ma Lanxin, Tan Jianyu#, Guan Zhennan, Liu Linhua. Optical constant measurements of solar thermochemical reaction catalysts and optical window. Optik, 2017, 131: 323-334.

[12] Cheng Ziming, Wang Fuqiang#, Xie Yinmo, Ma Lanxin, Xu Huijin, Tan Jianyu, Bai Fengwu. Investigation of optical properties and radiative transfer of sea water-based nanofluids for photocatalysis with different salt concentrations. International Journal of Hydrogen Energy, 2017, 42(43): 26626-26638.

[11] Tan Jianyu, Xie Yinmo, Wang Fuqiang#, Jing Lin, Ma Lanxin. Investigation of optical properties and radiative transfer of TiO2 nanofluids with the consideration of scattering effects. International Journal of Heat and Mass Transfer, 2017, 115: 1103-1112.

2016

[10] Wang Chengan#, Ma Lanxin, Tan Jianyu, Liu Linhua#. Study of radiative transfer in 1D densely packed bed layer containing absorbing–scattering spherical particles. International Journal of Heat and Mass Transfer, 2016, 102: 669-678.

[9]王成安#马兰新,谭建宇. 含气泡水层介质对蓝绿波段漫射光水下传输过程的影响研究, 工程热物理学报2016, 37(3), 629-632.

[8] Wang Fuqiang, Guan Zhennan, Tan Jianyu#, Ma Lanxin, Yan Zhenyu, Tan Heping. Transient thermal performance response characteristics of porous-medium receiver heated by multi-dish concentrator. International Communications in Heat and Mass Transfer, 2016, 75: 36-41.

2015

[7] Ma Lanxin, Wang Fuqiang#, Wang Chengan, Wang Chengchao, Tan Jianyu. Investigation of the spectral reflectance and bidirectional reflectance distribution function of sea foam layer by the Monte Carlo method. Applied Optics, 2015, 54(33): 9863-9874.

[6] Ma Lanxin, Wang Fuqiang#, Wang Chengan, Wang Chengchao, Tan Jianyu. Monte Carlo simulation of spectral reflectance and BRDF of the bubble layer in the upper ocean. Optics Express, 2015, 23(19): 24274-24289.

[5] 马兰新,王富强#,王成安,谭建宇. 吸收性介质内气泡的表观辐射特性研究, 工程热物理学报2015, 36(8), 1794-1798.

[4] 王成安#马兰新. 重力场下顺磁性介质内辐射与热磁对流的耦合, 哈尔滨工业大学学报, 2015, 47(9), 68-72.

[3] Wang Fuqiang, Tan Jianyu#, Ma Lanxin, Leng Yu. Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor. Energy Conversion and Management, 2015, 103: 419-430.

[2] Wang Fuqiang, Tan Jianyu#, Ma Lanxin, Wang Chengchao. Effects of glass cover on heat flux distribution for tube receiver with parabolic trough collector system. Energy Conversion and Management, 2015, 90: 47-52.

2014

[1] Wang Fuqiang, Tan Jianyu#, Ma Lanxin, Shuai Yong, Tan Heping, Leng Yu. Thermal performance analysis of porous medium solar receiver with quartz window to minimize heat flux gradient. Solar Energy, 2014, 108: 348-359.

授权发明专利

[5] 马兰新,王程超,张文杰,杨家跃,胡凯翔,刘林华. 微纳米颗粒体系结构色的正向预测和反向设计方法及系统,ZL202111324365.6

[4] 王程超,马兰新,张文杰,谭建宇,刘林华. 一种基于椭偏/透射联合测量液体光学常数的方法及系统,专利号. ZL202010710542.3

[3] 王富强,马兰新,王程超,王成安,谭建宇. 基于毛细抽吸两相流体环路和相变材料耦合热控技术的电池热管理系统,专利号. ZL 201410161035.3

[2] 王富强,谭建宇,马兰新,刘一波,巩向涛. 一种具有防止光学窗口热变形和破碎的悬浮粒子系太阳能热化学反应器, 专利号. ZL 201510112984.7

[1] 王富强,谭建宇,谢银模,来庆志,王成安,马兰新,王程超. 悬浮粒子系太阳能热化学反应器, 专利号. ZL 201410635125.1

 

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