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    田加猛

    • 副教授 硕士生导师
    • 性别:男
    • 出生日期:1990-11-24
    • 毕业院校:西安交通大学
    • 学历:博士研究生毕业
    • 学位:博士
    • 在职信息:在职
    • 所在单位:能源与动力工程学院
    • 入职时间: 2020-06-01
    • 办公地点:能动大楼1609
    • 联系方式:tianjiameng@ujs.edu.cn
    • 电子邮箱:tianjiameng@ujs.edu.cn

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    个人简介:

    江苏大学副教授、硕士生导师,江苏省力学学会会员,American Journal of Modern Energy编委,获Best Researcher Award on Information and Computer Applications,2024年起担任院学科秘书。2019年毕业于西安交通大学动力工程及多相流国家重点实验室,长期从事闪蒸喷雾、静电雾化与液滴动力学以及高功率电子器件的高效紧凑散热技术和激光皮肤手术中的表皮冷却技术等方面的研究。以项目负责人主持国家级课题1项、省部级课题4项和1项中科院联合攻关课题,以骨干人员参与国家自然自然科学基金重点项目1项,入选江苏省双创博士创新人才计划。在IJHMT、ATE、ETFS、中国激光、化工学报等国内外知名期刊发表学术论文30余篇,其中第一/通讯作者SCI期刊论文15篇,获“第十三届中国多相流测试学术会议”优秀论文奖。申请/授权发明专利10余项,授权软件著作权1项,发表英文专著(章节)1部。指导学生获“全国能源动力类专业百篇优秀毕业论文(设计)”和“建行杯”第十六届全国大学生节能减排社会实践与科技竞赛三等奖。

    研究领域

    1.   闪蒸喷雾冷却、静电雾化与液滴动力学

    2.   激光皮肤医学领域中的多相流动与传热传质

    3.   大功率电子器件与电力设备高效智能热管理技术

    讲授课程

    1.   流体力学(本科生)

    2.   热工与流体(本科生)

    3.   雾化理论与喷雾技术(研究生)

    4.   Atomization Theory & Spray Technology(留学生)

    5.  诗画流体“视”界(校内公选课)

    科研项目

    1.     国家自然科学基金青年项目(52106201),2022.1-2024.12,在研,主持

    2.     江苏省自然科学基金青年项目(BK20210763),2021.7-2024.6,在研,主持

    3.     中国博士后科学基金站中特别资助(2022T150273),2022.9-2024.8,在研,主持

    4.     中国博士后科学基金面上项目(一等,2021M700058),2021.9-2023.8,在研,主持

    5.     江苏省双创博士,2021.9-2023.9,在研,主持

    6.     国家自然科学基金重点项目(52036007),2021.1-2025.12310万,在研,项目骨干人员

    7.     横向课题,高功质比电机空气/闪蒸喷雾精准冷却及智能控制策略研发,2022.9-2023.8,在研,主持

    8.     技术转让,专利组合转化,2022

    主要论文

    期刊论文

    1.        Tian J M, He C Q, Chen Y Q, et al. Experimental study on combined heat transfer enhancement due to macro-structured surface and electric field during electrospray cooling. International Journal of Heat & Mass Transfer, 2024, 220: 125015.

    2.        Tian J M, Chen Y Q, He C Q, et al. Unstable spray pattern and cooling performance of cryogen spray coupled with cold air jet: An experimental study[J]. Physics of Fluids, 2023, 35(12): 123333.

    3.        Tian J M, Kong L W, Li B F, et al. Experimental investigation on heat transfer performance during electrospray cooling with ethanol–R141b mixture. Applied Thermal Engineering, 2023, 230: 120879.

    4.        Qenawy M, Chen Y Q, Wang J F*, Tian J M*, et al. Transient behavior of liquid film deposition and surface heat transfer upon cryogen-spray cooling coupled with cold air jet, International Journal of Heat & Mass Transfer, 2024, 223: 125224.

    5.        Qenawy M, Chen Y Q, Wang J F*, Tian J M*, et al. Intermittent cryogen spray cooling coupled with cold air jet for heat transfer enhancement and cryogen saving of laser dermatology, Physics of Fluids, 2024, 36(2): 023304.

    6.        Qenawy M, Wang J F*, Tian J M*, et al. Investigation of unsteady flow behavior of cryogen-spray coupled with cold air jet, Applied Thermal Engineering, 2023, 235: 121406.

    7.        Tian J M, Li B F, Wang J F*, et al. Transient analysis of cryogenic cooling performance for high-power semiconductor lasers using flash-evaporation spray. International Journal of Heat & Mass Transfer, 2022, 195: 123216.

    8.        Tian J M, Chen B*, Li D. Light transmittance dynamics and spectral absorption characteristics during auxiliary cryogen spray cooling in laser dermatology. Lasers in Medical Science, 2022, 37(3): 2079-2086.

    9.        Tian J M, Chen B*, Li D. Efficacy evaluation and treatment parameter optimization for laser surgery of Ota's nevus based on an advanced non-equilibrium bio-tissue heat transfer model. Lasers in Medical Science, 2022, 37(1): 369-379.

    10.      Tian J M, Zhao T Y, Zhou Z F, et al. Isolated moving charged droplet evaporation characteristics in electrostatic field with highly volatile R134a. International Journal of Heat & Mass Transfer, 2021, 178: 21583.

    11.      Tian J M, Chen B*, Zhou Z F, et al. Theoretical Study on Cryogen Spray Cooling in Laser Treatment of Ota’s Nevus: Comparison and Optimization of R134a, R404A and R32. Energies, 2020, 13(21): 5647.

    12.      Tian J M, Chen B*. Dynamic behavior of non-evaporative droplet impact on a solid surface: Comparative study of R113, water, ethanol and acetone. Experimental Thermal & Fluid Science, 2019, 105: 153-164.

    13.      Tian J M, Chen B*, Zhou Z F. Parametric effect investigation on surface heat transfer performances during cryogen spray cooling. Applied Thermal Engineering, 2018, 143: 767-776.

    14.      Tian J M, Chen B*, Zhou Z F. Methodology of surface heat flux estimation for 2D multi-layer mediums[J]. International Journal of Heat & Mass Transfer, 2017, 114: 675-687.

    15.      Tian J M, Chen B*, Li D, Zhou Z F. Transient spray cooling: Similarity of dynamic heat flux for different cryogens, nozzles and substrates. International Journal of Heat & Mass Transfer, 2017, 108: 561-571.

    16.      Chen B*, Tian J M, Wang R, et al. Theoretical study of cryogen spray cooling with R134a, R404A and R1234yf: Comparison and clinical potential application. Applied Thermal Engineering, 2019, 148: 1058-1067.

    17.      Qenawy M, Khalaf M*, Wang J F*, et al. Performance and Emission of Extracted Biodiesel from Mixed Jatropha-Castor Seeds, Fuel, 2024, 357 130060.

    18.      Wang Z T, Dai Q, Kong Q, et al. Theoretical analysis on electrohydrodynamic instability of a low viscous electrified jet. Acta Astronautica, 2023, 212: 595–605.

    19.      Li Y C, Wang Z T, Li B, et al. Molecular dynamics simulation of the cone-jet electrospray: Role of surfactants[J]. International Journal of Heat & Mass Transfer, 2023, 214, 124388.

    20.      Wang Z T, Dai Q, Yang S Q, et al. An experimental study on the role of electrical conductivity in the steady cone-jet electrospray[J]. International Journal of Multiphase Flow, 2023, 104696.

    21.      Li B F, Wang J F*, Tian J M, et al. Transient cooling performance of R134a flash-evaporation spray enhanced by cold air jet: A novel heat transfer enhancement method in laser dermatology. International Journal of Heat & Mass Transfer, 2022, 199: 123468.

    22.      Wang J F*, Zhang Y, Tian J M, et al. Experimental Investigation of Electrospray Cooling Performance Using the Mixture of Ethanol and R141b. International Journal of Thermophysics, 2022, 43(6): 82.

    23.      Wang J F*, Zhao T Y, Tian J M, et al. Oscillating evaporation of pendant droplets under the action of ionic wind . Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 650: 129579.

    24.      Wang Z T*, Kong Q, Li B, Tian J M, et al. Electrohydrodynamic instability and disintegration of low viscous liquid jet. Physics of Fluids, 2022, 34: 123301.

    25.      Zhou Z F, Safwan H M M, Tian J M, et al. Experimental investigation on heat transfer of n-pentane spray impingement on piston surface. Applied Thermal Engineering, 2018, 138: 197-206.

    26.      Xu H, Wang J, Tian J M, et al. Evaporation characteristics and heat transfer enhancement of sessile droplets under non-uniform electric field. Experimental Thermal and Fluid Science, 2021, 126 110378.

    27.      Xu H, Wang J, Li B, et al. Effect of spray modes on electrospray cooling heat transfer of ethanol. Applied Thermal Engineering, 2021, 189 116757.

    28.      Xu H, Wang J, Tian J M, et al. Electrohydrodynamic disintegration of dielectric fluid blended with ethanol. Physics of Fluids, 2021, 33(6): 062107.

    29.      田加猛,陈斌*,周致富,李东.太田痣激光手术中瞬态制冷剂喷雾冷却性能与光衰减特性研究[J].中国激光202249 (5)0507104

    30.      田加猛,陈斌*,李东,周致富.制冷剂瞬态喷雾冷却表面传热特性[J].化工学报201667(10)4064-4071

    31.      王锐,陈斌*,王嘉丰,田加猛,周致富,应朝霞.R1234yf瞬态喷雾冷却及过热度影响的实验研究[J].化工学报201869(2)595-601

    32.      辛慧,陈斌*,周致富,田加猛.激光溶脂手术脉冲式制冷剂喷雾冷却数值研究[J].化工学报201869(12)4966-4971

    33.      许浩洁,王军锋,田加猛,张闫,赵天岳. 不同雾化模式下乙醇静电喷雾冷却换热特性[J. 中国工程热物理学报202142(10)2559-2565.

    会议论文

    1.       Tian J M, Wang ZT, Chen B, et al. Experimental investigation on heat transfer performance during electrospray cooling with ethanol–R141b mixture, Droplets 2023, Beijing, China, August 27-30, 2023.

    2.       Tian J M, Chen B, Wang J F. Cooling Performance and Light Attenuation Characteristics during Transient Cryogen Spray in Laser Treatment of Ota’s Nevus, 32th Annual Conference on Liquid Atomization and Spray Systems (ILASS-Americas2022), online, May 22-25, 2022.

    3.       Tian J M, Wang J F, Chen B. Numerical Investigation on Isolated Moving Charged Droplet Evaporation in Electrostatic Field with Highly Volatile R134a, 15th Triennial International Conference on Liquid Atomization and Spray Systems (ILASS-ASIA2020), Online, 9 Aug. - 2 Sept. 2021.

    4.       Tian J M, Chen B, Wang J F, et al. THEORETICAL STUDY ON CRYOGEN SPRAY COOLING IN LASER TREATMENT OF OTA’S NEVUS: COMPARISON AND OPTIMIZATION OF R134A, R404A AND R32, 2th Extended Abstracts of the Second Asian Conference on Thermal Sciences (ACTS), Online, October 3-7, 2021.

    5.       Tian J M, Wang J F, Chen B. Numerical Investigation on Isolated Moving Charged Droplet Evaporation in Electrostatic Field with Highly Volatile R134a, 15th Triennial International Conference on Liquid Atomization and Spray Systems (ILASS-ASIA2020), Online, 9 Aug. - 2 Sept. 2021.

    6.       Tian J M, Chen B, Wang J F, et al. THEORETICAL STUDY ON CRYOGEN SPRAY COOLING IN LASER TREATMENT OF OTA’S NEVUS: COMPARISON AND OPTIMIZATION OF R134A, R404A AND R32, 2th Extended Abstracts of the Second Asian Conference on Thermal Sciences (ACTS), Online, October 3-7, 2021.

    7.       Tian J M, Chen B. Effects of ambient temperature and relative humidity on heat transfer dynamics during R134a spray cooling, 15th International Conference on Clean Energy (ICCE2017), Xi’an, China, December 8-11, 2017.

    8.       Tian J M, Chen B, Zhou Z F. SURFACE HEAT TRANSFER CHARACTERISTICS DURING TRANSIENT SPRAY COOLING, 4th International Workshop on Heat Transfer (IWHT2017), Las Vegas, USA, April 2-5, 2017.

    9.       Tian J M, Chen B, Li D, et al. Similarity of Dynamic Heat Flux between Different Cryogens during Transient Spray Cooling, 8th International Symposium on Multiphase Flow (ISMF2016), Chengdu, China, December 17-19, 2016.

    10.    田加猛,陈斌,周致富,王军锋基于大涡模拟与统计学分析的R134a闪蒸喷雾耦合冷空气射流流动特性研究. 13届中国多相流测试学术会议,杭州,中国,2023-4-212023-4-23.

    11.    田加猛,何昌秋,李步发,王军锋,陈斌,王海. 制冷剂闪蒸喷雾瞬态低温冷却特性实验研究,中国工程热物理学会多相流分会,珠海,2022

    12.    田加猛,陈斌,周致富,王军锋液滴撞击固体壁面形态及铺展模型研究. 12届中国多相流测试学术会议,吉林,中国,2021-5-142021-5-16.

    13.    田加猛,陈斌,李东.耦合热机械效应的生物组织非平衡传热模型研究,中国工程热物理学会多相流分会,长沙,2019

    14.    田加猛,陈斌,周致富.液滴撞击非热壁面的实验研究,中国工程热物理学会多相流分会,北京,2018

    15.    田加猛,陈斌,周致富.R134a闪蒸喷雾冷却表面传热特性,中国工程热物理学会多相流分会,扬州,2017

    16.    田加猛,陈斌,李东,周致富.瞬态喷雾冷却表面相变传热特性研究,中国工程热物理学会传热传质分会,北京,2016

    专著(章节)

    Chen B*, Tian J M and Zhou ZF. The Fundamental and Application of Surface Heat Flux Estimation by Inverse Method in Cryogen Spray Cooling [Online First], IntechOpen.

    获奖情况

    1.   “第十三届中国多相流测试学术会议”优秀论文奖,2023.

    2.   “全国能源动力类专业百篇优秀毕业论文(设计)”,指导教师,2023.

    3.   Best Researcher Award on Information and Computer Applications.

    4.   “建行杯”第十六届全国大学生节能减排社会实践与科技竞赛三等奖,指导教师,2023.

    5.   镇江市力学学会驻镇高校青年教师讲课竞赛,一等奖,2021.

    专利与软件著作权

    1.       田加猛,王军锋,张闫,陈斌,周致富用于大功率芯片散热的静电闪蒸微喷雾循环冷却系统,中国专利,授权,2020.10.02ZL 202010666183.6

    2.       田加猛,王军锋,陈斌,周致富二维表面热流密度实时在线测量装置及方法,中国专利,授权,2020.12.29ZL 202010688933.X

    3.       田加猛,曾予,王军锋,陈斌,王海一种用于航空发动机叶片的风-电场协同调控喷雾清洗装置及其工作方法,中国专利,授权,2022.07.14202210824905.5

    4.       田加猛,史树芊,陈斌,王军锋一种制冷剂喷雾辅助表皮冷却、制冷剂回收与处理系统,中国专利(实用新型),授权,2022.07.14202221809525.6

    5.       田加猛,何昌秋,唐川林,熊俊辉,王军锋,陈斌一种电喷雾强化传热传质蒸汽腔器,中国专利,申请,2023.06.152023107124381

    6.       田加猛,唐川林,何昌秋,熊俊辉,王军锋,陈斌用于电推进系统高功质比电机控制器的空气/闪蒸喷雾复合冷却系统及方法,中国专利,申请,2023.06.292023107830407

    7.       田加猛,张闫,王军锋用于变功率低温激光器高效散热的开式液氮喷雾冷却系统,中国专利,申请,2020.12.04202011406707.4

    8.       田加猛,许家硕,李步发,陈斌,王军锋一种用于激光皮肤手术中制冷剂喷雾辅助冷却的光衰减特性试验系统及其方法,中国专利,申请,2022.02.28202210186915.0

    9.       田加猛,许家硕,王军锋,陈斌,王海一种用于航空发动机的循环式引射喷雾降噪系统及其工作方法,中国专利,申请,2022.07.14202210825679.2

    10.    田加猛,史树芊,陈斌,王军锋一种制冷剂喷雾辅助表皮冷却、制冷剂回收与处理系统及其工作方法,中国专利,申请,2022.07.14202210824904.0

    11.    张闫,王军锋,田加猛一种用于非极性或弱极性液体极化的荷电装置,中国专利,授权,2020.09.09ZL 202010942139.3

    12.    赵天岳,王军锋,田加猛,许浩洁,左晓慧,张闫一种基于离子风强化及能源转化利用的静电雾化冷却系统,中国专利,授权,2021.05.20202110549506.8

    13.    赵天岳,王军锋,田加猛,许浩洁一种基于离子风强化技术的蒸发散热装置,中国专利(实用新型),授权,2022.02.01ZL 202121097888.7

    14.    李步发王军锋田加猛张闫许浩洁一种结合电喷雾技术的光伏光热氢电联产装置,中国专利,授权,2021.06.23202110697312.2

    15.  陈斌,田加猛.太田痣激光热疗参数优化软件软件著作权,授权,2019.062019SR1180100


    其他

    每年招收动力工程及工程热物理相关专业方向硕士研究生2~3名,欢迎报考!同时欢迎学有余力的优秀本科生加入科研团队,参与科研项目。