代表性期刊论文
[18] H.G. Wang, Y.M. Tang, M. Liu, S. Zhu, K.Q. Zheng, X.P. Du* Experimental study on heat transfer performance of axially rotating heat pipe in steady state[J]. International Journal of Thermal Sciences, 2023, 184.
[17] 杜雪平*, 陈志杰, 牛玉振. 水平管外混合制冷剂的降膜滴状流动数值研究[J]. 工程热物理学报, 2021, 42 (08): 2060-2067.
[16] Xueping Du*, Zhijie Chen, Qi Meng, Yang Song. Experimental analysis and ANN prediction on performances of finned oval-tube heat exchanger under different air inlet angles with limited experimental data[J]. Open Physics. 2020, 18(1): 968-980.
[15] Xueping Du, Zhen Qian, Zhilin Chen, Zhonghao Rao*. Experimental investigation on mini-channel cooling–based thermal management for Li-ion battery module under different cooling schemes[J]. International Journal of Energy Research, 2018, 42 (8): 2781-2788.
[14] Xueping Du, Dongtai Han*, Qiangmin Zhu. Heat transfer enhancement of the air-cooling tower with rotating wind deflectors under crosswind conditions[J]. Applied Sciences, 2018, 8 (4): 544.
[13] Xueping Du, Min Zeng, Zhaoyi Dong, Qiuwang Wang*. Experimental study of the effect of air inlet angle on the air-side performance for cross-flow finned oval-tube heat exchangers[J]. Experimental Thermal and Fluid Science, 2014, 52: 146-155.
[12] Xueping Du, Min Zeng, Qiuwang Wang*, Zhaoyi Dong. Experimental investigation of heat transfer and resistance characteristics of a finned oval-tube heat exchanger with different air inlet angles. Heat Transfer Engineering. 2014, 35 (6-8): 703-710.
[11] Xueping Du, Yantao Yin, Min Zeng, Pengqing Yu, Qiuwang Wang*, Zhaoyi Dong, Yitung Chen. An Experimental investigation on air-side performances of finned tube heat exchangers for indirect air-cooling tower. Thermal Science. 2014, 18 (3): 863-874.
[10] Linghong Tang, Xueping Du, Jie Pan J, Bengt Sundén*. Air inlet angle influence on the air-side heat transfer and flow friction characteristics of a finned oval tube heat exchanger[J]. International Journal of Heat and Mass Transfer, 2019, 145: 118702.
[9] Chengyun Xin*, Xueping Du, Feiqiang Guo, Shuanglin Shen. Radiation Thermometry Algorithms with Emissivity Constraint[J]. Spectroscopy and Spectral Analysis, 2019, 39 (3): 679-681.
[8] Lang Lu, Xueping Du, Chengyun Xin. Modeling and Simulation of Local Thermal Non-equilibrium Effects in Porous Media with Small Thermal Conductivity[J]. Transport in Porous Media, 2018, 124 (2): 553-575.
[7] Xing Lu, Xueping Du, Min Zeng, Sen Zhang, Qiuwang Wang*. Shell-side thermal-hydraulic performances of multilayer spiral-wound heat exchangers under different wall thermal boundary conditions[J]. Applied Thermal Engineering, 2014, 70 (2): 1216–1227.
[6] Qiuwang Wang*, Min Zeng, Ting Ma, Xueping Du, Jian Feng Yang. Recent development and application of several high-efficiency surface heat exchangers for energy conversion and utilization[J]. Applied Energy, 2014, 35: 748-777.
[5] Xueping Du, Min Zeng,Qiuwang Wang*, Zhaoyi Dong. Experimental study on heat transfer and resistance performance of elliptical finned tube heat exchanger with different air entrance angles[J]. Chemical Engineering Transactions, 2011, 25: 369-374.
[4] Xing Lu, Xueping Du, Sen Zhang, Min Zeng, Qiuwang Wang*. Experimental and numerical investigation on shell-side performance of multilayer spiral-wound heat exchangers[J], Chemical Engineering Transactions, 2013, 35: 445-450.
[3] Gaopeng Zhang, Xing Lu, Xueping Du, Min Zeng, Qiuwang Wang*. Parametric study on flow and heat transfer performance of multi-flow spiral-wound heat exchanger[J], Chemical Engineering Transactions, 2014, 39: 319-324.
[2] 杜雪平, 陈贵冬, 曾敏, 王秋旺*. 基于Goose LDW-PSO的管壳式换热器优化设计. 工程热物理学报, 2010, 31 (4): 679-681.
[1] 唐凌虹, 杜雪平, 曾敏*. 进风角度对椭圆管翅式换热器流动性能的影响[J]. 动力工程学报, 2017, 37 (8): 649-654.
代表性会议论文
[19] 宋洋, 孟琦, 吴琰, 梁林, 杜雪平*. LNG缠绕式换热器壳侧汽化传热数值模拟研究[C]. 2021年中国工程热物理学会传热传质学术会议. 上海.
[18] 陈志杰, 杜雪平*, 牛玉振. 混合制冷剂在水平管外降膜滴状流动数值研究[C]. 2020年中国工程热物理学会传热传质学术会议. 广州, 2020. 11.27-29.
[17] 杜雪平*,戴照峰,陈志杰. LNG缠绕式换热器壳侧汽化传热数值模拟研究[C]. 2019年中国工程热物理学会传热传质学术会议. 青岛, 2019, 10.18-20.
[16] Xueping Du*, Zhaofeng Dai, Yuzhen Niu, Qiuwang Wang, Yimin Li. Numerical Simulation on Shell-side Vaporization Heat Transfer of LNG Spiral-Wound Heat Exchangers under Sloshing Condition[C]. 5th International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control (IWHT2019). Novosibirsk, Russia, 2019. (邀请报告)
[15] Xueping Du, Min Zeng, Qiuwang Wang*. Ann prediction on thermo-hydraulic performances of finned oval-tube heat exchanger with limited experimental data[C]. 3rd International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control. Taipei, Taiwan, 2015.
[14] Xueping Du, Pengqing Yu, Min Zeng, Ting Ma, Qiuwang Wang*. Experimental Investigation on Comprehensive Performances of Finned Tube Heat Exchangers for Indirect Air-Cooling Tower[C]. The 8th Conference on Sustainable Development of Energy, Water and Environment Systems. Dubrovnik, Croatia, 2013, September 22-27.
[13] Xueping Du, Pengqing Yu, Min Zeng, Qiuwang Wang*. Experimental data analysis for a finned oval-tube heat exchanger under four air inlet angles using ANN approach[C]. 23rd International Symposium on Transport Phenomena. Auckland, New Zealand, 2012, November 19-22.
[12] Xueping Du, Min Zeng, Qiuwang Wang*, Zhaoyi Dong. Experimental Study on Heat Transfer and Resistance Performance of Elliptical Finned Tube Heat Exchanger with Different Air Entrance Angles[C]. 14th International Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction. Florence, Italy, 2011.
[11] Xueping Du, Min Zeng, Qiuwang Wang*, Zhaoyi Dong. Experimental Investigation of Heat Transfer and Pressure Drop Characteristics of Elliptical Finned Tube Heat Exchanger with Different Air Inlet Angles[C]. 2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control. Xi'an, China, 2011, October 17-20.
[10] Xing Lu, Xueping Du, Sen Zhang, Min Zeng, Qiuwang Wang*. Experimental and Numerical Investigation on Shell-side Performance of Multilayer Spiral-Wound Heat Exchangers[C]. 16th International Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction. Rhodes, Greece, 2013.
[9] 杜雪平, 王兴明, 辛成运, 饶中浩*. 基于相变储能的重力热管传热特性实验研究[C]. 2017江苏省工程热物理年会. 南京, 2017.
[8] 杜雪平, 曾敏, 王秋旺*. 基于ANN的椭圆管翅式空冷换热器的性能预测[C]. 2016江苏省工程热物理年会. 南京, 2016.
[7] 杜雪平, 曾敏, 王秋旺*. 基于PSO的空冷三角单元的多目标优化[C]. 2015年中国工程热物理学会传热传质学术会议. 大连, 2015.
[6] 戴照峰, 李恒, 赵长鑫, 杜雪平*. 吸热涂层对自然冷却塔冷却性能的影响[C]. 2017江苏省工程热物理年会. 南京, 2017.
[5] 张高鹏, 芦星, 杜雪平, 曾敏, 王秋旺*. 多股流绕管式换热器流动传热数值研究[C]. 2014年中国工程热物理学会传热传质学术会议. 西安, 2014.
[4] 芦星, 杜雪平, 张高鹏, 曾敏, 王秋旺*. 列管式多重套管换热器耦合换热数值模拟[C]. 2013年中国工程热物理学会传热传质学术会议. 重庆, 2013.
[3] 杜雪平, 喻澎清, 曾敏, 王秋旺*. 基于人工神经网络的椭圆管翅式换热器实验数据分析[C]. 2012年中国工程热物理学会传热传质学术会议. 东莞, 2012.
[2] 杜雪平, 曾敏, 王秋旺*, 董兆一. 双排管单管程椭圆管翅式换热器的实验研究[C]. 2011年中国工程热物理学会传热传质学术会议. 西安, 2011.
[1] 杜雪平, 陈贵冬, 曾敏, 王秋旺*. 基于Goose LDW-PSO的管壳式换热器优化设计[C]. 2009年中国工程热物理学会传热传质学术会议. 青岛, 2009.