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成员介绍

成员介绍

马挺
日期:2019-11-21     点击数:     来源 : 
个人资料
   姓名:  马挺 
职称:  教授 (博士生导师)
  电话:  029-82663222  
传真:  029-82663502
  E-mail:  mating715@mail.xjtu.edu.cn 
邮编:  710049
  地址:  陕西省西安市西安交通大学能动学院北二楼8807室
个人主页 : http://gr.xjtu.edu.cn/en/web/mating715
马挺
   








教育背景

 

 

²    2007.09-2012.09:西安交通大学,动力工程及工程热物理专业,硕博连读

² 2011.08-2012.01:美国University of Nevada, Las Vegas,机械工程系,访问学生

² 2003.10-2007.07:西安科技大学,安全工程专业,本科


工作经历

 

² 2019.11-至今:西安交通大学,能源与动力工程学院,热流科学与工程系,教授

² 2015.09-2019.11:西安交通大学,能源与动力工程学院,热流科学与工程系,副教授

² 2014.03-2015.02:美国Virginia Tech,机械工程系,访问学者

² 2012.09-2015.08西安交通大学,能源与动力工程学院,热流科学与工程系,讲师


研究方向     

 

² 极端条件强化传热传质(SCO2LNG、高温气冷堆、微型燃气轮机、高温烟气)

² 新型紧凑式高温高压换热器(PCHE、原表面、内外翅片管)

² 高效热电发电器件与热电转换系统

² 流动传热与应力变形问题的数值预测方法(宏观、微观、多物理场)

² 高效热管理技术(固液相变储能、热电制冷、喷雾冷却)



主持项目
  

        主持国家自然科学基金2项、教育部博士点基金(新教师类)、中国博士后科学基金特别资助项目及多项国防预研项目等纵向课题,主持中国核动力院、航天五院、航天六院、中国工程物理研究院、中广核等横向课题,作为技术骨干参与重点研发项目、国家自然科学基金国际合作重大项目、863项目等课题。撰写英文专著2章,在Int. J. Heat Mass Transfer、Energy Convers. Manage.、Energy等本领域著名期刊发表论文50余篇,合作指导学生获国际会议优秀论文1篇、国内会议优秀论文及展报4篇,申请和授权发明专利近20项。作国际会议和国内会议邀请报告(Keynote /Invited/主题报告)10余次、境外大学学术讲座1次,受邀担任国际会议分会主席6次。指导学生获首钢京唐杯第十二届全国大学生节能减排社会实践与科技竞赛特等奖,作为主要完成人获2012年教育部技术发明一等奖。


 

 

近5年代表性论文    


[1]      Liao Xinzhong, Liu Yuxuan, Ren Jiahang, Guan Liuping, Sang Xuehao, Wang Bowen, Zhang Hang, Wang Qiuwang, Ma Ting*. Investigation of a double-PCM-based thermoelectric energy-harvesting device using temperature fluctuations in an ambient environment. Energy, 2020, 202:117724.

[2]      Xu Zirui, Li Xinyi, Zhu Ziliang, Wang Qiuwang, Chen Yitung, Ma Ting*. Experimental study on the heat transfer performance of a gallium heat sink. Energy Conversion and Management, 2020, 213:112853.

[3]      Ma Ting, Zhang Pan, Shi Haoning, Chen Yitung, Wang Qiuwang*. Prediction of flow maldistribution in printed circuit heat exchanger. International Journal of Heat and Mass Transfer, 2020, 152:119560.

[4]      Chu Wenxiao, Li Xionghui, Chen Yitung, Wang Qiuwang, Ma Ting*. Experimental study on small scale printed circuit heat exchanger with zigzag channels. Heat Transfer Engineering, DOI: 10.1080/01457632.2020.1735779, 2020.

[5]      Xu Zirui, Li Xinyi, Niu Cong, Wang Qiuwang, Ma Ting*. Enhancement of gallium phase-change heat transfer by copper foam and ultrasonic vibration. Journal of Enhanced Heat Transfer, 2020, 27(1):71-84.

[6]      Wang Luxin#, Lu Xing#, Yu Xingfei, Wang Qiuwang, Zhao Dongliang, Ren Wei, Ma Ting*. Effect of operating temperature on interface diffusion and power generation of bismuth telluride thermoelectric modules. Heat Transfer Research, 2020, 51: 253-262.

[7]      Lu Xing, Yu Xingfei, Wang Qiuwang, Chen Yitung, Ma Ting*. Numerical study on nonuniform segmented enhancement method for thermoelectric power generator. Numerical Heat Transfer Part A-Applications, 2019, 76(8): 605-627.

[8]      Borjigin Saranmanduh, Zhang Shuxiong, Zeng Min, Wang Qiuwang, Ma Ting*. Coupling epsilon-NTU method for thermal design of heat exchanger in cabinet cooling system. Applied Thermal Engineering, 159: UNSP 113972, 2019

[9]      Deng Tianrui, Li Xionghui, Wang Qiuwang, Ma Ting*. Dynamic modelling and transient characteristics of supercritical CO2 recompression Brayton cycle. Energy, 2019, 180: 292-302.

[10]   Ma Ting, Qu Zuoming, Yu Xingfei, Lu Xing, Chen Yitung, Wang Qiuwang*. Numerical study and optimization of thermoelectric-hydraulic performance of a novel thermoelectric generator integrated recuperator. Energy, 2019, 174: 1176-1187.

[11]   Ma Ting, Qu Zuoming, Yu Xingfei, Lu Xing, Wang Qiuwang*. A review on thermoelectric-hydraulic performance and heat transfer enhancement technologies of thermoelectric power generator system. Thermal Science, 22(5): 1885-1903, 2018.

[12]   Yu Xingfei, Lu Xing, Wang Qiuwang, Chen Yitung, Ma Ting*. Parametric study of thermoelectric power generators under large temperature difference conditions. Applied Thermal Engineering, 144: 647-657, 2018.

[13]   Lu Xing, Yu Xingfei, Qu Zuoming, Wang Qiuwang, Ma Ting*. Experimental investigation on thermoelectric generator with non-uniform hot-side heat exchanger for waste heat recovery. Energy Conversion and Management, 150: 403-414, 2017.

[14]   Ma Ting, Lu Xing, Pandit Jaideep, Ekkad Srinath V., Huxtable Scott T., Deshpande Samruddhi, Wang Qiu-Wang*. Numerical study on thermoelectric-hydraulic performance of a thermoelectric power generator with a plate-fin heat exchanger with longitudinal vortex generators. Applied Energy, 185: 1343-1354, 2017.

[15]   Ma Ting, Chu Wen-xiao, Xu Xiang-yang, Chen Yi-tung, Wang Qiu-wang*. An experimental study on heat transfer between supercritical carbon dioxide and water near the pseudo-critical temperature in a double pipe heat exchanger. International Journal of Heat and Mass Transfer, 93: 379-387, 2016.

[16]   Pasquier U., Chu W.X., Zeng M., Chen Y.T., Wang Q.W., Ma T.*. CFD simulation and optimization of fluid flow distribution inside printed circuit heat exchanger headers. Numerical Heat Transfer Part A-Applications, 69(7): 710-726, 2016.

[17]   Ma Ting, Li Lei, Xu Xiang-Yang, Chen Yi-Tung, Wang Qiu-Wang*. Study on local thermal-hydraulic performance and optimization of zigzag-type printed circuit heat exchanger at high temperature. Energy Conversion and Management, 104: 55-66, 2015.

[18]   Ma Ting, Xin Fei, Li Lei, Xu Xiang-yang, Chen Yi-tung, Wang Qiu-wang*. Effect of fin-endwall fillet on thermal hydraulic performance of airfoil printed circuit heat exchanger. Applied Thermal Engineering, 89: 1087-1095, 2015.

[19]   Ma Ting*, Pandit Jaideep, Ekkad Srinath V., Huxtable Scott T., Wang Qiuwang. Simulation of thermoelectric-hydraulic performance of a thermoelectric power generator with longitudinal vortex generators. Energy, 84: 695-703, 2015.

[20]   Ma Ting, Yan Min, Zeng Min, Yuan Jin-liang, Chen Qiu-yang, Sunden Bengt, Wang Qiu-wang*. Parameter study of transient carbon deposition effect on the performance of a planar solid oxide fuel cell. Applied Energy, 152: 217-228, 2015.

[21]   Ma Ting, Zhang Jie, Borjigin Saranmanduh, Chen Yi-Tung, Wang Qiu-Wang, Zeng Min*. Numerical study on small-scale longitudinal heat conduction in cross-wavy primary surface heat exchanger. Applied Thermal Engineering, 76: 272-282, 2015.

[22]   Xu X.Y., Wang Q.W., Li L., Ekkad S.V., Ma T.*. Thermal-hydraulic performance of different discontinuous fins used in a printed circuit heat exchanger for supercritical CO2. Numerical Heat Transfer Part A-Applications, 68(10): 1067-1086, 2015.

[23]   Xu X.Y., Wang Q.W., Li L., Chen Y.T., Ma T.*. Study on thermal resistance distribution and local heat transfer enhancement method for SCO2-water heat exchange process near pseudo-critical temperature. International Journal of Heat and Mass Transfer, 82: 179-188, 2015.






近5年代表专利
    

[1]      马挺,关柳萍,任佳航,刘宇轩,廖新忠,桑学昊,王博文,王秋旺. 一种温度控制式复合相变材料温差发电系统. 中国发明专利, 专利号: ZL 201910489573.8授权日期2020-7-14

[2]      马挺,萨仁满都呼,王秋旺,曾敏,常宏亮,张术雄. 一种气气换热系统. 中国发明专利, 专利: ZL 201910489572.3授权日期2020-7-14

[3]      马挺俞兴飞李娜王秋旺. 一种模块化喷雾冷却器. 中国发明专利, 专利号: ZL 201910040978.3 授权日期:2020-7-28

[4]      王秋旺,李雄辉,马挺,曾敏,褚雯霄. 一种螺旋推流通道板式换热器. 中国发明专利, 专利号: ZL 201711209065.7授权日期:2019-8-23

[5]      王秋旺,萨仁满都呼,马挺,曾敏. 一种换热器系统热力设计方法. 中国发明专利, 专利号: ZL 201710047745.7授权日期:2019-8-23

[6]      王秋旺石昊宁马挺. 一种多通道板式换热器进出口设计方法. 中国发明专利, 专利号: ZL 201710839087.5 授权日期:2019-04-12

[7]      王秋旺,辛菲,马挺,李雄辉,邓天瑞. 喷淋蚀刻系统. 中国发明专利, 专利号: ZL 201711153828.0 授权日期:2019-04-02

[8]      马挺, 屈佐明, 芦星, 王秋旺. 一种板翅式热发电换热器. 中国发明专利, 专利号: ZL 201610986596.6 授权日期:2019-3-1

[9]      王秋旺,张攀,马挺. 一种气气高温换热器. 中国发明专利, 申请号: ZL 201710615447.3 授权日期:2018-12-14

[10]    王秋旺, 褚雯霄, 马挺, 曾敏. 一种非均匀分布肋片的高温高压板式换热器. 中国发明专利, 专利号: ZL 201510941222.8. 授权日期:2017-10-20

 

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