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彭本利

2022-03-12  点击:[]

彭本利


博士,副教授, 硕士生导师


通讯地址:辽宁省大连市甘井子区凌海路1号,116026


电子邮箱:pengbl@dlmu.edu.cn


教育背景

2009.09-2014.10    大连理工大学,化学工程,博士

2007.09-2009.07    大连理工大学,化学工程,硕士

2003.09-2007.07    大连理工大学,化学工程与工艺,学士

工作履历

2018.12-至今    大连海事大学 能源与动力工程系,副教授

2014.11-2018.09   美国南卡罗来纳大学,机械工程学院,博士后

研究领域

冷凝传热传质及其强化机理,流动沸腾传热传质机理及其强化策略,功能表面的开发和制备,相变储能过程传热传质机制及其协同强化,水资源综合利用,能源高效清洁利用,多相流动与传热传质的数值模拟

科研项目

[1] 国家自然科学基金项目: 微纳液滴核化生长和合并弹跳协同强化高不凝气含量蒸汽冷凝机理 (2020~2022),主持

[2] 中央高校基本科研业务费: 高不凝气含量蒸汽冷凝传热传质强化机理研究 (2020),主持

[3] Research foundation of American Electric Power Research Institute: Desalination through Multistage Flash Boiling Using Low Grade Waste Heat (2017~2018),参与

[4] US Natural Sciences Foundation: On-demand Sweating-Boosted Air Cooled Heat-Pipe Condensers for Green Power Plants (2014~2018),参与

[5] 国家“863” 项目:高温吸收式热泵系统的研发(2010~2011),参与

[6] 国家自然科学基金项目:界面多尺度效应的传热强化机制 (2013~2014);低压/超低压蒸汽冷凝传热及其强化机制(2008~2010); 滴状冷凝过程中壁面几何结构和物理化学性质对分子团聚的影响机制(2010~2012),参与

[7] 日产1吨低温多效海水淡化系统的研发(2010~2011),参与

[8] 中石化公司主要科学和技术项目:万吨/天级低温多效海水淡化工艺包的设计. (2011~2012),参与

学术成果

代表性论文

[1] Benli Peng, Wenlong Sheng, Zhengyu He, Hong Wang, Fengmin Su, Shikuan Wang. Systematic Investigations on Charging/discharging Performances Improvement of Phase Change Materials by Structured Network Fins[J]. Energy, 2022, 242:122963.

[2] Benli Peng, Zhengyu He, Hong Wang, Fengmin Su. Optimization of Patterned-fins for Enhancing Charging Performances of Phase Change Materials-based Thermal Energy Storage Systems[J], International Journal of Heat and Mass Transfer, 2021, 164:120573.

[3] Benli Peng, Guanghan Huang, Pengtao Wang, Wenming Li, Wei Chang, Jiaxuan Ma, Chen Li. Effect of Thermal Conductivity and Density on the Characterization of Phase Change Materials-based Thermal Energy Storage System[J], Energy, 2019, 172:580-591.

[4] Benli Peng, Wenlong Sheng, Meizhuting Qiu, Yong Zhou, Hong Wang, Fengmin Su. Influence of Phase Change Material Physicochemical Properties on the Optimum Fin Structure in Charging Enhancement[J], Chemical Engineering Transactions, 2021,88:733-738.

[5] Benli Peng, Zhengyu He, Hong Wang, Fengmin Su. Systematic Investigations on Charging Performance Enhancement of PCM-based Thermal Energy Storage System by Fin Arrangements, Chemical Engineering Transactions, 2020,81:25-30.

[6] Benli Peng, Zhong Lan, Wei Xu, Rongfu Wen, Xuehu Ma, Jiaxuan Ma, Chen Li. Numerical Study of Droplet Motion/Departure on Condensation of Mixture Vapor using Lattice Boltzmann Method[J]. International Journal of Heat Transfer and Fluid Flow, 2017, 68:53-61.

[7] Benli Peng, Xuehu Ma, Zhong Lan, Wei Xu, Rongfu Wen, Tao Bai. Experimental Investigation on Steam Condensation Heat Transfer Enhancement with Vertically Patterned Hydrophobic–hydrophilic Hybrid Surfaces[J]. International Journal of Heat and Mass Transfer, 2015, 83:27-38.

[8] Benli Peng, Xuehu Ma, Zhong Lan, Wei Xu, Rongfu Wen. Analysis of Condensation Heat Transfer Enhancement with Dropwise-Filmwise Condensation Hybrid Surface: Droplet Sizes Effect[J]. International Journal of Heat and Mass Transfer, 2014, 77: 785-794.

[9] Benli Peng, Sifang Wang, Zhong Lan, Wei Xu, Rongfu Wen, Xuehu Ma. Analysis of Droplet Jumping Phenomenon with Lattice Boltzmann Simulation of Droplet Coalescence[J]. Applied Physics Letters, 2013, 102: 151601.

[10] 贺征宇, 彭本利, 苏风民, 纪玉龙, 马鸿斌. 微纳结构超疏水表面参数影响含不凝气蒸汽冷凝传热的理论分析. 化工学报, 2021, 72(5): 2570-2577.

[11] 彭本利, 马学虎, 兰忠, 徐威, 温荣福, 白涛. 组合表面调控液滴特性强化蒸汽冷凝传热. 化工学报, 2015, 66(10): 3826-3833.

[12] 彭本利, 徐威, 温荣福, 兰忠, 白涛, 马学虎. 蒸汽剪切驱动液滴行为的格子Boltzmann模拟[J]. 工程热物理学报, 2015, 4:820-824.

[13] 彭本利, 兰忠, 徐威, 温荣福, 白涛, 马学虎. 超疏水-疏水组合表面蒸汽冷凝的实验研究. 工程热物理学报, 2014, 35(10):2036-2040.

[14] 彭本利, 兰忠, 徐威, 温荣福, 白涛, 马学虎. 液滴合并LB模拟及液滴弹跳的理论分析. 工程热物理学报, 2013, 09(34): 1731-1734.

[15] 马学虎, 彭本利, 兰忠, 王爱丽, 王四芳, 张崇峰, 白涛. 滴状冷凝传热的多尺度规划与最佳接触角. 工程热物理学报, 2011, 02(32): 321-325.

专利

[1] Chen Li, Wei Chang, Benli Peng, Pengtao Wang. Manufacturable Metal-graphene Interface for Highly Efficient and Durable Heat Exchanger Components[P]. USA, 2020, US20200064079A1.

[2] Chen Li, Wei Chang, Benli Peng. Manufacturable Metal-graphene Interface for Highly Efficient and Durable Condensers[P]. USA, 2019, US 20190186852A1.

[3] 兰忠,马学虎,张永强,彭本利,温荣福,白涛,一种纳米氟碳复合涂层的制备工艺,2015. 01. 28,中国,ZL201310019338.7

[4] 马学虎,兰忠,刘晓燕,白涛,彭本利,朱霞,低温多效蒸发结晶过滤工艺,2013. 07. 10,中国,ZL201110029274.X

国际国内学术交流

[1] Benli Peng, Wenlong Sheng, Meizhuting Qiu, Yong Zhou, Zhengyu He, Hong Wang, Fengmin Su. Influence of Phase Change Material Physicochemical Properties on the Optimum Fin Structure in Charging Enhancement. 24th Conference on Process Integration, Modelling and Optimisation For Energy Saving and Pollution Reduction, 2021, Online, Oral Presentation.

[2] Benli Peng, Zhengyu He, Hong Wang, Fengmin Su. Systematic Investigations on Charging Performance Enhancement of PCM-Based Thermal Energy Storage System by Fin Arrangements. 23rd Conference on Process Integration, Modelling and Optimisation For Energy Saving and Pollution Reduction, 2020, Online, Oral Presentation.

[3] Benli Peng, Zhengyu He, Wenlong Sheng, Fengmin Su, Hong Wang. Structured Metallic Fins Induce Charging/Discharging Performances Enhancement of Phase Change Materials-Based Thermal Energy Storage Unit, 12th International Conference on Applied Energy 2020, Bangkok/Virtual, Oral Presentation.

[4] Benli Peng, Zhong Lan, Wei Xu, Rongfu Wen, Xuehu Ma, Jiaxuan Ma, Chen Li. Simulation of Droplet Motions on Solid Surfaces under External Forces by Lattice Boltzmann Method, ASME Proceedings | Micro/Nanoscale Boiling and Condensation Heat Transfer, 2016, Washington DC, Oral Presentation.

[5] Xuehu Ma, Benli Peng, Zhong Lan, Wei Xu, Rongfu Wen. Theoretical Analysis of Condensation Heat Transfer Enhancement with Hydrophobic and Hydrophilic hybrid Surface, The 4th Asian Symposium on Computational Heat Transfer and Fluid Flow, Hong Kong, 3-6 June 2013, Oral Presentation.

[6] Xuehu Ma, Benli Peng, Zhong Lan, Mingzhe Wang, et al. Dropwise Condensation Heat Transfer of Steam at Low Pressure. Proceedings of the 8th International Symposium on Heat Transfer, October 21-24, 2012, Beijing, China, Oral Presentation.

[7] 彭本利, 邱美竹庭,周勇,生文龙,王红,王世宽,苏风民. 相变材料物性对其充热性能影响的研究. 中国工程热物理学会传热传质学学术年会, 2021, 编号: 213527, 中国, 上海.

[8] 彭本利,生文龙,贺征宇,苏风民,邱美竹庭,周勇. 组合表面高不凝气蒸汽冷凝的数值研究. 中国工程热物理学会传热传质学学术年会, 2021, 编号: 213578, 中国, 上海.

[9] 彭本利,贺征宇,王红,苏风民,王世宽. 网状翅片强化相变材料充/放热性能研究. 中国工程热物理学会传热传质学学术年会, 2021, 编号: 203509, 中国, 广州.

[10] 贺征宇,彭本利,苏风民. 超疏水表面结构参数影响含不凝气蒸汽冷凝传热的理论分析. 中国工程热物理学会传热传质学学术年会, 2021, 编号: 203128, 中国, 广州.

[11] 彭本利, 马学虎, 兰忠, 徐威, 温荣福, 白涛. 表面润湿性能影响液滴动态特性的LB模拟, 中国工程热物理学会传热传质学学术年会, 2013, 编号:133541, 中国, 西安.

[12] 彭本利兰忠,徐威,温荣福,白涛,马学虎.液滴合并过程的LBM模拟及其诱导弹跳现象的理论分析. 中国工程热物理学会传热传质学学术年会, 2012, 编号: 123476, 中国, 广州.

[13] 马学虎,彭本利,兰忠,王四芳,张崇峰,徐威,白涛. 滴膜共存强化滴状冷凝传热的多尺度规划. 中国工程热物理学会传热传质学学术年会 , 2010, 编号: 103350, 中国, 上海.

学术兼职(期刊审稿人)

[1] International Journal of Heat and Mass Transfer,

[2] Applied Thermal Engineering,

[3] International Journal of Thermal Science,

[4] Diamond and Related Materials,

[5] Experimental Thermal and Fluid Science,

[6] International Communications in Heat and Mass Transfer,

[7] International Journal of Multiphase Flow,

[8] Nuclear Engineering and Technology,

[9] Progress in Nuclear Energy

[10] Progress in Organic Coatings

[11] Sensors and Actuators A: Physical

[12] Case Studies in Thermal Engineering


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