SCI论文

2019年度

[31] Zheng Cao, Jianqiang Deng*, Fanghua Ye. Cross-scale analysis of the energy recovery process in pressure exchanger and pipeline system[J]. Desalination and Water Treatment, 2019. (Accepted)

[30] Yafei Li, Jianqiang Deng*, Li Ma. Experimental study on the primary flow expansion characteristics in transcritical CO2 two-phase ejectors with different primary nozzle diverging angles[J]. Energy, 2019. (Accepted) PDF 

[29] Yang He, Jianqiang Deng*, Yafei Li, Li Ma. A numerical contrast on the adjustable and fixed transcritical CO2 ejector using exergy flux distribution analysis[J]. Energy Conversion and Management, 2019, 196: 729-738.PDF

[28] Bing Yang, Jianqiang Deng*, Wenjun Yuan, Zeiliang Wang. Investigation on continuous pressure wave in a periodic transient flow using a three-dimensional CFD model[J]. Journal of Hydraulic Research, 2019 PDF
[27] Kai Liu, Jianqiang Deng*, Fanghua Ye. Numerical simulation of flow structures in a rotary type energy recovery device[J].  Desalination, 2019, 449: 101-110. PDF
2018年度

[26]Yang He, Haisheng Chen, Yujie Xu, Jianqiang Deng*. Compression performance optimization considering variable charge pressure in an adiabatic compressed air energy storage system[J]. Energy, 2018,165B:349-359.  PDF

[25] Yafei Li, Jianqiang Deng*, Li MaYazhou Zhang. Visualization of two-phase flow in primary nozzle of a transcritical CO2 ejector [J]. Energy Conversion and Management, 2018, 171: 729-741. PDF

[24] Wenjun Yuan, L. Zhao*, H.I. Andersson, Jianqiang Deng*. Three-dimensional Voronoï analysis of preferential concentration of spheroidal particles in wall turbulence [J]. Physics of Fluids, 2018, 30: 063304. PDF

[23] Zheng Cao, Jianqiang Deng*, Fanghua Ye, Charles A. Garris Jr. Analysis of a Hybrid Thermal Vapor Compression and Reverse Osmosis Desalination System at Variable Design Conditions[J]. Desalination, 2018, 438: 54-62. PDF

[22] Zheng Cao, Jianqiang Deng*, Zhihua Chen, Wenjun Yuan. Numerical analysis of the energy recovery process in a disc-type pressure exchanger with pressure-boost effect[J]. Desalination and Water Treatment, 2018, 105, 152–159. PDF

[21] Wenjun Yuan, L. Zhao*, N.R. Challabotla, H.I. Andersson, Jianqiang Deng*On wall-normal motions of inertial spheroids in vertical turbulent channel flows [J]. Acta Mechanica, 2018, 229: 2947-2965. PDF

[20] Kai Liu, Jianqiang Deng*, Fanghua Ye. Visualization of flow structures in a rotary type energy recovery device by PIV experiments [J]. Desalination, 2018, 433: 33-40. PDF

[19] Fanghua Ye, Jianqiang Deng*,  Zheng Cao, Kai Liu. Study of energy recovery efficiency in a sliding vane pressure exchanger for a SWRO system [J]. Desalination and Water Treatment, 2018, 119: 150-159.PDF

2017年度

[18] Wenjun Yuan, H.I. Andersson, L. Zhao, N.R. Challabotla, Jianqiang Deng. Dynamics of disk-like particles in turbulent vertical channel flow[J]. International Journal of Multiphase Flow, 2017, 96: 86-100. PDF

[17] Fanghua Ye, Jianqiang Deng*, Kai Liu, Zheng Cao. Performance study of a rotary vane pressure exchanger for SWRO[J]. Desalination and Water Treatment, 2017, 89: 36-46. PDF

[16] Lixing Zheng, Jianqiang Deng*. Experimental investigation on a transcritical CO2 ejector expansion refrigeration system with two-stage evaporation[J]. Applied Thermal Engineering, 2017, 125: 919-927. PDF

[15] Wenjun Yuan, Jianqiang Deng*. Numerical simulation of circular particles migration in oscillatory Poiseuille flow[J]. Computers and Fluids, 2017, 155: 112-123. PDF

[14] Yang He , Jianqiang Deng, Fusheng Yang, Zaoxiao Zhang. An optimal multivariable controller for trans critical CO2 refrigeration cycle with an adjustable ejector [J]. Energy Conversion and Management. 2017, 142: 466-476. PDF

[13] Yang He, Jianqiang Deng, Lixing Zheng, Zaoxiao Zhang.Performance optimization of a transcritical CO2 refrigeration system using a controlled ejector, International Journal of Refrigeration, 2017, 75: 250-261. PDF

[12] Jianqiang Deng*, Zheng Cao, Dongbo Zhang, et al. Integration of energy recovery network including recycling residual pressure energy with pinch technology. Chinese Journal of Chemical Engineering, 2017, 25(4): 453-462. PDF

[11] Lixing Zheng, Jianqiang Deng*. Research on CO2 ejector component efficiencies by experiment measurement and distributed-parameter modelling [J]. Energy Conversion and Management. 2017, 142: 244-256. PDF

2016年度

[10] Kai Liu, Jianqiang Deng*, Mei Mei. Experimental study on the confined flow over a circular cylinder with a splitter plate[J].Flow Measurement & Instrumentation, 2016, 51:95-104. PDF

[9] Wenjun Yuan, Jianqiang Deng*, Zheng Cao, et al. Dynamic of one and two elliptical particles settling in oscillatory flow: Periodbifurcation and resonance state[J]. Powder  Technology , 2016, 304:8-19. PDF

[8]  Lixing. Zheng, Jianqiang Deng*, Zaoxiao. Zhang. Dynamic simulation of an improved transcritical CO2 ejector expansion refrigeration cycle[J]. Energy Conversion and Management, 2016, 114(14): 278-289. PDF

[7]  Lixing. Zheng, Jianqiang Deng*, Yang He, et al. Dynamic simulation on operating modes of ejector in transcritical CO2 ejector expansion refrigeration cycles[J]. Science and Technology for the Built Environment, 2016, 22(1): 15-29. PDF

[6]  Zheng. Cao, Jianqiang Deng*, Wenjun Yuan, et al. Integration of CFD and RTD analysis in flow pattern and mixing behavior of rotary pressure exchanger with extended angle[J]. Desalination and Water Treatment, 2016, 57(33): 15265-15275. PDF

2015年度以前

[5]  Lixing Zheng, Jianqiang Deng*, Yang He, et al. Dynamic model of a transcritical CO2 ejector expansion refrigeration system[J]. International Journal of Refrigeration, 2015, 60(2): 247-260. PDF

[4]  Wenjun Yuan, Jianqiang Deng*, Zheng Cao, et al. Sedimentation of an elliptical particle in periodic oscillatory pressure driven flow[J]. Fluid Dynamics Research
2015, 47(6): 065504. PDF

[3] Yang He, Jianqiang Deng, Zaoxiao Zhang. Thermodynamic study on a new transcritical CO2 ejector expansion refrigeration system with two-stage evaporation and vapor feedback[J]. Hvac&R Research, 2014, 20(6): 655-664. PDF

[2] Jianqiang Deng*, Jiqun Shi, Zaoxiao Zhang, et al. Thermodynamic analysis on work transfer process of two gas streams[J]. Industrial & Engineering Chemistry Research, 2010, 49(24): 12496-12502. PDF

[1] Jianqiang Deng, Peixue Jiang, Tao Lu, et al. Particular characteristics of transcritical CO2 refrigeration cycle with an ejector[J]. Applied Thermal Engineering, 2007, 27(2): 381-388. PDF 

 

 

 

中文论文

[40] 叶芳华, 邓建强,曹峥,龚明强. 滑片式压力能交换器的结构设计分析[J]. 化工机械2018, 45(01): 50-56, 108.

[39] 陈志华邓建强梅玫曹峥自驱型旋转式压力能交换器的结构优化与动态性能研究[J]化工机械, 2017, 44(04): 419-425.

[38] 何阳张早校邓建强跨临界 CO2引射制冷系统控制性能[J]制冷学报2017, 38(03): 1-6.  *2017年《制冷学报》优秀论文奖

[37] 何阳张早校薛长乐张亚洲邓建强基于延迟均衡的CO2两相引射器模型研究[J]. 制冷学报, 2016, 37(04): 1-6.

[36] 曹峥邓建强刘芹, 袁文君基于波系分析的自增压旋转压力能交换器性能研究[J]. 工程热物理学报, 2016, 37(02): 314-318.

[35] 周岳,赵晓玥,唐贝茗,邓建强. 采用自然对流换热的空气源热泵热水器实验研究[J]. 制冷技术, 2015, 35(2): 13-17.

[34] 郑立星邓建强何阳两级蒸发对跨临界CO2引射制冷系统影响的实验研究[J]. 制冷学报, 2015, 36(4): 66-71. *2015年《制冷学报》优秀论文奖;2017年制冷学会优秀论文二等奖

[33] 袁文君邓建强曹峥动态长度下压力交换器内脉动掺混研究[J]. 工程热物理学报, 2015, 36(4): 766-769.

[32] 陈志华邓建强曹峥, 袁文君自驱型旋转式压力能交换器性能模拟与结构优化[J]. 化工机械, 2015, 42(05): 669-675.

[31] 雷达陈志华邓建强能源化工循环经济中类Cobb-Douglas生产函数简化及资源优化分配[J]. 系统工程理论与实践, 2014, 34(3): 683-690.

[30] 曹峥雷晓陈世通等海底沉积物层内CO2泄漏渗流与水合耦合规律研究[J]. 西安交通大学学报, 2013, 47(9): 134-139.

[29] 王菲邓建强跨临界CO2引射制冷循环临界背压分析[J]. 西安交通大学学报, 2012, 46(9): 66-70.

[28] 马登龙邓建强张早校地质封存中CO2泄漏的非稳态扩散数值模拟研究[J]. 西安交通大学学报, 2012, 46(9): 102-107.

[27] 雷晓邓建强张早校海底沉积物层CO2封存中水合物研究进展[J]. 化工进展, 2012, 31(06): 1338-1346.

[26] 张栋博邓建强方永利等. Texaco煤气化灰水处理功量交换应用分析[J]. 化学工程, 2011, 39(12): 1-5.

[25] 韦帮远邓建强强科通信基站热管加蓄冷被动散热的模拟研究[J]. 热科学与技术, 2011, 10(1): 38-44.

[24] 邓建强马丽冯霄化工过程功量交换回收效率理论[J]. 化工学报, 2011, 62(11): 3017-3023.

[23] 邓建强跨临界CO2引射制冷循环运行稳定性研究[J]. 工程热物理学报, 2011, 32(11): 1826-1828

[22] 孟翔宇杨福胜邓建强等新型太阳能热泵干燥系统的设计与理论研究[J]. 太阳能学报, 2010, 31(5): 568-574.

[21] 孟翔宇杨福胜鲍泽威等基于储氢合金的太阳能制冷系统理论研究[J]. 华北电力大学学报, 2009, 36(3): 10-14.

[20] 张宇姜培学石润富等竖直圆管中超临界压力CO2在低Re数下对流换热研究[J]. 工程热物理学报, 2008, 29(1): 118-120.

[19] 孙兆虎王国梁姜培学等跨临界CO2热泵热水系统试验研究[J]. 制冷与空调, 2008, 8(02): 75-78.

[18] 李青张早校夏侯国伟等虚拟仪器技术在风洞换热实验自动测试系统的应用研究[J]. 仪器仪表学报, 2007, 28(8): 203-208.

[17] 邓建强李文良张早校家用燃气热泵系统变环境温度性能分析[J]. 西安交通大学学报, 2007, 41(1): 28-31.

[16] 张宇姜培学石润富等竖直圆管中超临界压力CO2对流换热实验研究[J]. 工程热物理学报, 2006, 27(2): 280-282.

[15] 孙兆虎姜培学邓建强太阳能辅助空气源跨临界二氧化碳热泵热水与空调系统初探[J]. 制冷与空调, 2006, 6(6): 20-22.

[14] 石润富姜培学邓建强等超临界CO2在烧结多孔圆管中换热的实验研究[J]. 工程热物理学报, 2006, 27(2): 13-16.

[13] 邓建强李文良张早校燃气热泵系统生命周期评价[J]. 西安交通大学学报, 2006, 40(11): 1258-1262.

[12] 邓建强姜培学卢涛等跨临界CO2蒸气压缩喷射制冷循环理论分析[J]. 清华大学学报, 2006, 46(5): 670-673.

[11] 邓建强姜培学卢涛等跨临界二氧化碳蒸气压缩喷射制冷循环性能比较[J]. 工程热物理学报, 2006, 27(3): 382-384.

[10] 卢涛姜培学邓建强高温环境下封装有相变材料的热沉结构优化[J]. 电子器件, 2005, 28(3): 466-469.

[9] 邓建强姜培学石润富等跨临界CO2汽车空调微通道气体冷却器的设计开发[J]. 制冷学报, 2005, 26(4): 51-55.

[8] 邓建强姜培学李建明用于跨临界CO2汽车空调系统的板翅式内部换热器设计[J]. 流体机械, 2005, 33(12): 57-60.

[7] 邓建强冯诗愚张早校等铁路空调客车内流场、温度场的数值模拟和实验研究[J]. 暖通空调, 2005, 35(6): 20-23.

[6] 高秀峰冯诗愚郁永章等铁路空调客车内三维湍流流动及温度场的实验研究[J]. 流体机械, 2004, 32(12): 57-60.

[5] 邓建强靳谊勇张早校等空调客车内风道三维湍流流动特性数值研究[J]. 制冷学报, 2001, 24(1): 30-34.

[4] 邓建强顾兆林郁永章等高压往复压缩机级差活塞新结构——浮动活塞动力学(二)分析与讨论[J]. 流体机械, 1999, 27(9): 18-21.

[3] 邓建强顾兆林郁永章等高压往复压缩机级差活塞新结构——浮动活塞动力学(一)数学模型[J]. 流体机械, 1999, 27(8): 12-16.

[2] 邓建强高秀峰郁永章螺旋叶片压缩机综述[J]. 压缩机技术, 1999, 157(5): 15-18.

[1] 顾兆林邓建强郁永章往复压缩机高压级采用自由活塞结构的启动过程研究[J]. 压缩机技术, 1998, 152(06): 8-11.