郑年本 - 中南大学 - 能源科学与工程学院

个人简介

主要从事传热强化、相变材料与热管理、功能流体等方面研究。现主持国家自然科学基金青年项目，湖南省自然科学基金青年项目，中南大学特聘副教授科研启动项目。先后参与了包括国家“973”、国家自然科学基金重点项目在内的多个科研项目研究，发表SCI收录论文20余篇，其中第一作者/通讯作者论文16篇，均为JCR Q1。现任湖南省仪器仪表协会常务理事，中南大学学报科学版客座编辑，担任International Journal of Heat and Mass Transfer, Applied Thermal Engineering, International Journal of Thermal Sciences, International Communications in Heat and Mass Transfer, Experimental thermal and fluid Science, Journal of Thermal Analysis and Calorimetry, Journal of Energy Storage, Solar Energy, Applied Nanoscience, SN Applied Sciences 等多个期刊的审稿人。 “先进传热强化与热管理”研究小组每年招收硕士研究生1-2名，欢迎对研究方向感兴趣的同学加入。教育经历 2013/9-2018/6 华中科技大学，工程热物理专业，博士 2009/9-2013/6 华中科技大学，热能与动力工程专业，本科工作经历 2018/6-至今，中南大学，能源科学与工程学院，特聘副教授讲授课程能源与动力过程控制工程，32学时，本科科研项目： [1] 国家自然科学基金青年项目：周向非均匀热流下圆管内湍流大尺度拟序结构调控及其传热强化研究（项目编号：51906259），2020-2022，主持 [2] 湖南省自然科学基金青年项目：基于湍流拟序结构定向调控的圆管内对流传热强化研究（项目编号：2020JJ5761）, 2020-2022，主持 [3] 国家自然科学基金重点项目：基于斯特林热机的能量转换与传递过程基础问题研究（项目编号：51736004），2018-2022，参与 [4 国家重点基础研究发展计划（973）计划项目：“工业余热高效综合利用的重大共性基础问题研究”课题2“余热能级及梯级利用的定量化原则及其在热力系统中的应用”（项目编号：2013CB228302），2013-2017，参与 [5] 国家自然科学基金面上项目：基于减阻与耗散理论的聚合物材料换热器及其传热元件的优化设计理论与实验研究（项目编号：51307069），2014-2017，参与 [6 国家自然科学基金青年项目：基于流场与温度场同步测量的管内对流强化传热机理研究（项目编号：51606073），2017-2019，参与

研究领域

1. 流动控制与传热强化（应用：高效换热器、太阳能热利用） 2. 相变材料与热管理（应用：相变储能、动力电池热管理） 3. 新型功能流体（应用：高热流电子器件冷却、海水淡化）

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

2021: [2] R. Fan, N. Zheng*, Z. Sun*, Evaluation of fin intensified phase change material systems for thermal management of Li-ion battery modules, International Journal of Heat and Mass Transfer, 166 (2021) 120753. [1] J. Wu, L. Chen, N. Zheng*, Z. Sun*, Experimental investigation of the attachment of unburned carbon in coal fly ash to a stationary air bubble in aqueous solutions, Fuel, 285 (2021) 119080. 2020: [4] K. Zhang, Z. Sun*, N. Zheng*, Q. Chen, Effects of the configuration of winglet vortex generators on turbulent heat transfer enhancement in circular tubes, International Journal of Heat and Mass Transfer, 157 (2020) 119928. [3] N. Zheng, R. Fan, Z. Sun*, T. Zhou, Thermal management performance of a fin-enhanced phase change material system for the lithium-ion battery, International Journal of Energy Research, 44 (9) (2020) 7617-7629. [2] Z. Sun, K. Zhang, W. Li, Q. Chen, N. Zheng*, Investigations of the turbulent thermal-hydraulic performance in circular heat exchanger tubes with multiple rectangular winglet vortex generators, Applied Thermal Engineering, 168 (2020) 114838. [1] N. Zheng*, F. Yan, K. Zhang, T. Zhou, Z. Sun*, A review on single-phase convective heat transfer enhancement based on multi-longitudinal vortices in heat exchanger tubes, Applied Thermal Engineering, 164 (2020) 114475. 2019: [3] Z. Sun, R. Fan, F. Yan, T. Zhou, N. Zheng*, Thermal management of the lithium-ion battery by the composite PCM-Fin structures, International Journal of Heat and Mass Transfer, 145 (2019) 118739. [2] P. Liu, N. Zheng, Z. Liu, W. Liu, Thermal-hydraulic performance and entropy generation analysis of a parabolic trough receiver with conical strip inserts, Energy Conversion and Management, 179 (2019) 30-45. [1] Y. Liang, P. Liu, N. Zheng, F. Shan, Z. Liu, W. Liu, Numerical investigation of heat transfer and flow characteristics of laminar flow in a tube with center-tapered wavy-tape insert, Applied Thermal Engineering, 148 (2019) 557-567. 2018: [4] F. Xin, Z. Liu, N. Zheng, P. Liu, W. Liu, Numerical study on flow characteristics and heat transfer enhancement of oscillatory flow in a spirally corrugated tube, International Journal of Heat and Mass Transfer, 127 (2018) 402-413. [3] X. Wang, N. Zheng, Z. Liu, W. Liu, Numerical analysis and optimization study on shell-side performances of a shell and tube heat exchanger with staggered baffles, International Journal of Heat and Mass Transfer, 124 (2018) 247-259. [2] P. Liu, N. Zheng, F. Shan, Z. Liu, W. Liu, An experimental and numerical study on the laminar heat transfer and flow characteristics of a circular tube fitted with multiple conical strips inserts, International Journal of Heat and Mass Transfer, 117 (2018) 691-709. [1] P. Liu, N. Zheng, F. Shan, Z. Liu, W. Liu, Heat transfer enhancement for laminar flow in a tube using bidirectional conical strip inserts, International Journal of Heat and Mass Transfer, 127 (2018) 1064-1076. 2017: [6] N. Zheng, P. Liu, X. Wang, F. Shan, Z. Liu, W. Liu, Numerical simulation and optimization of heat transfer enhancement in a heat exchanger tube fitted with vortex rod inserts, Applied Thermal Engineering, 123 (2017) 471-484. [5] N. Zheng, P. Liu, F. Shan, Z. Liu, W. Liu, Sensitivity analysis and multi-objective optimization of a heat exchanger tube with conical strip vortex generators, Applied Thermal Engineering, 122 (2017) 642-652. [4] N. Zheng, P. Liu, F. Shan, Z. Liu, W. Liu, Turbulent flow and heat transfer enhancement in a heat exchanger tube fitted with novel discrete inclined grooves, International Journal of Thermal Sciences, 111 (2017) 289-300. [3] N. Zheng, P. Liu, Z. Liu, W. Liu, Numerical simulation and sensitivity analysis of heat transfer enhancement in a flat heat exchanger tube with discrete inclined ribs, International Journal of Heat and Mass Transfer, 112 (2017) 509-520. [2] X. Wang, N. Zheng, P. Liu, Z. Liu, W. Liu, Numerical investigation of shell side performance of a double shell side rod baffle heat exchanger, International Journal of Heat and Mass Transfer, 108 (2017) 2029-2039. [1] P. Liu, N. Zheng, L. Rui, F. Shan, Z. Liu, W. Liu, PIV measurement of flow structures in a circular heat exchange tube with central slant rod inserts, Energy Procedia, 142 (2017) 3793-3798. 2016: [6] N. Zheng, P. Liu, F. Shan, Z. Liu, W. Liu, Numerical investigations of the thermal-hydraulic performance in a rib-grooved heat exchanger tube based on entropy generation analysis, Applied Thermal Engineering, 99 (2016) 1071-1085. [5] N. Zheng, P. Liu, F. Shan, Z. Liu, W. Liu, Heat transfer enhancement in a novel internally grooved tube by generating longitudinal swirl flows with multi-vortexes, Applied Thermal Engineering, 95 (2016) 421-432. [4] N. Zheng, P. Liu, F. Shan, Z. Liu, W. Liu, Effects of rib arrangements on the flow pattern and heat transfer in an internally ribbed heat exchanger tube, International Journal of Thermal Sciences, 101 (2016) 93-105. [3] N. Zheng, P. Liu, F. Shan, J. Liu, Z. Liu, W. Liu, Numerical studies on thermo-hydraulic characteristics of laminar flow in a heat exchanger tube fitted with vortex rods, International Journal of Thermal Sciences, 100 (2016) 448-456. [2] P. Liu, N. Zheng, F. Shan, Z. Liu, W. Liu, Numerical study on characteristics of heat transfer and friction factor in a circular tube with central slant rods, International Journal of Heat and Mass Transfer, 99 (2016) 268-282. [1] 郑年本, 刘志春, 刘伟. 圆管内插入螺旋片强化传热数值模拟及(火积)耗散分析. 工程热物理学报, 01 (2016) 155-159. 2015: [1] N. Zheng, W. Liu, Z. Liu, P. Liu, F. Shan, A numerical study on heat transfer enhancement and the flow structure in a heat exchanger tube with discrete double inclined ribs, Applied Thermal Engineering, 90 (2015) 232-241.