研究领域

研究方向:

1. 能源互联网综合能源系统

  • 综合能源系统集成与最优设计技术
  • 热/电/气多能流耦合机制及调度策略
  • 能源互联网信息物理融合建模
  • 智慧能量管理系统
  • 预测理论与技术
  • 新能源系统技术经济性评估

2. 锂电池/新能源汽车/电化学储能技术

  • 锂电池多尺度模型
  • 动力电池热均衡技术
  • 锂离子电池热管理技术
  • 锂电池SOC和SOH估计
  • 新能源汽车能量综合管理技术

3. 氢及燃料电池

  • 制氢技术
  • 电堆设计技术
  • 氢燃料电池无人机动力系统
  • 携行电源
  • 燃料电池特种电源

 

目前在研项目:

1. XXX,JW科技委前沿创新项目,2020-2022,负责人

2. 大数据中心低功耗冷却服务器机柜,陕西省重点研发计划,2021-2023,负责人

3. 可再生能源互补的分布式供能系统关键技术研究与示范,国家电网科技项目,2019-2022,课题负责人

4. XXX核电站蓄电池可行性研究,企业横向,2021-2022,负责人

5. 太阳能驱动电、热、氢多能互补关键技术研究,企业横向,2021-2024,负责人

6. 氢能微型发电机,西安市科技局,2020-2022,负责人

 

已结题项目:

7. 固体氧化物燃料电池电极微观结构内的多物理场耦合效应及多目标优化研究,国家自然科学基金面上项目, 2018-2021, 参与

8. 工业园区多元源荷储智能互动调节及经济性评估技术研究,中国电科院横向课题,2019.11-2020.08,负责人

9. 能源互联网的规划、运行与交易基础理论,国家重点研发计划“智能电网技术与装备”专项,2016-2020,子任务负责

10. 固体氧化物燃料电池衰退机理及诊断, 国家自然科学基金面上项目,2017-2020,负责人

11. 基于对称固体氧化物燃料电池的热解耦的综合能源系统基础研究,国家电网前瞻项目,2017-2019,课题负责人

12. SOFC积碳研究,国家自然科学基金面上项目,2013-2016,负责人

13. 锂电池发热特性研究,企业横向,2017.05-2017.12,负责人

14. 电动汽车锂电池热管理技术,陕西省工业攻关项目,2013.1-2015.12,负责人

15. SOEC制氢,中科院国家战略性先导科技专项合作项目,2013.1-2013.12,负责人

16. 新加坡科技局项目,Dynamic modeling of SOFC, 2009.04-2010.03,Principal Investigator

17. 新加坡发展局项目,Energy savings and cost benefits by coupling electrical and thermal grids in the buidling system, 2012.03-2015.02, Co-Investigator 

专利(部分):

1. 张兄文, Chan Siew Hwa, 一种自适应制氢系统, ZL 201510194072.9

2. 张兄文,李国君,一种连续时间太阳辐射能预测方法, ZL 201210129938.4)
3. 张兄文,李国君,一种短时间间隔大气环境温度预测方法, ZL 201210387375.9)
4. 张兄文,高山,柴丹,王雅倩,一种氢气发生器以及基于该氢气发生器的氢发电系统,ZL 201810564922.3
5. 张兄文,何丽美,李国君,基于可再生燃料电池/膨胀机混合循环的冷热电联供系统,ZL 201711071272.0
6. 张兄文,华秀文,李国君,一种低功耗负载供电电池装置,ZL 201710875863.7
7. 张兄文,张强,彭年,一种喷射-吸收热力循环电池热管理系统及其工作方法,ZL 201910257120.2
8. 张兄文,高山,王雅倩,一种便携式电源系统,ZL 201810236644.9
9. 柴丹,张兄文,一种硼氢化钠水解制氢催化剂、制备方法及其应用,ZL 202010183682.X
 
软件著作权
1. 张兄文,任娜,郭旭,多能流综合能源系统规划设计系统[简称MIXEnergy]V1.0,登记号:2019SR0093663
 
学术论著:
书章节
Chapter 4: Conceptual integration strategies for the hybrid systems of solid oxide fuel cell. In: Wenzhong LIN editor, Energy Conversion:  New Research, Nova Science  Publishers, New York, USA, 2008. p.173-194. G. Li, Xiongwen Zhang, J. Li, Z. Feng
 
部分期刊论文(第一作者或联系作者入选ESI 高被引论文4篇,ESI热点论文1篇,SCI他引情况参见http://www.researcherid.com/rid/G-3030-2010, Google scholar profile http://scholar.google.com.hk/citations?hl=en&user=wyg3H54AAAAJ ):  
  1. Nian Peng, Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, Online parameters identification and state of charge estimation for lithium-ion batteries using improved adaptive dual unscented Kalman filter, International Journal of Energy Research, 2021;45:975–990.
  2. Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, An improved adaptive unscented Kalman filtering for state of charge online estimation of lithium-ion battery, Journal of Energy Storage, 32(2020): 101980.
  3. Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, A rapid online calculation method for state of health of lithium-ion battery based on coulomb counting method and differential voltage analysis, Journal of Power Sources, 479 (2020) 228740
  4. Haibin Lu, Iqbal Taosif, Shuzhi Zhang, Xiongwen Zhang*, Guojun Li, Di Zhang, Mechanical response of nickel-based anodes in solid oxide fuel cells during carbon deposition using reaction molecular dynamics, International Communications in Heat and Mass Transfer, 117 (2020) :104787.
  5. Xu Guo, Shuzhi Zhang, Deshun Wang, Nian Peng, Xiongwen Zhang*, Techno-economic feasibility study of an electric-thermal coupling integrated energy system for commercial buildings in different latitudes, International Journal of Energy Research, 2020, 44: 7789-7806.
  6. Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, Multi-objective decision analysis for data-driven based estimation of battery states: A case study of remaining useful life estimation, International Journal of Hydrogen Energy, 45(2020): 14156-14173.
  7. Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, A data-driven coulomb counting method for state of charge calibration and estimation of lithium-ion battery, Sustainable Energy Technologies and Assessments, 40(2020): 100752.
  8. Dan Cai, Xiongwen Zhang*, Shicheng Yan, Guojun Li, Ni2P as an electron donor stabilizing Pt for highly efficient isopropanol fuel cell, Int J Hydrogen Energy, 45(2020): 6573-6582.
  9. Dan Cai, Xiongwen Zhang*, Siew Hwa Chan, Guojun Li, Facile aqueous phase synthesis of Pd3Cu-B/C catalyst for enhanced glucose electrooxidation, Journal of The Taiwan Institute of Chemical Engineers, 95(2019): 139-146.
  10. Taosif Iqbal, Yaqian Wang, Haibin Lu, Xiongwen Zhang*, Siew Hwa Chan, Small signal modelling and control of high gain coupled inductor boost inverter for solid oxide fuel cell based power generation system, International Journal of Hydrogen Energy, 44(2019): 21115-21126.
  11. Taosif Iqbal, Haibin Lu, Shah Zaman, Siew-Chong Tan, Guojun Li, Xiongwen Zhang*, Coupled-inductor based diode assisted boost inverter for achieving high gain, IET Power Electronics, 12(2019): 410-420.
  12. Shuzhi Zhang, Xu Guo, Xiongwen Zhang*, Modeling of Back-Propagation Neural Network Based State-of-Charge Estimation for Lithium-Ion Batteries with Consideration of Capacity Attenuation, Advances in Electrical And Computer Engineering, 19(2019): 3-10.
  13. Jiajia Cui, Junkai Wang, Xiongwen Zhang*, Guojun Li, Kai Wu, Yonghong Cheng, Jun Zhou,Low thermal expansion material Bi0.5Ba0.5FeO3-delta in application for proton-conducting ceramic fuel cells cathode, International Journal of Hydrogen, 44(2019): 21127-21135.
  14. Zonglei Xu, Na Ren, Mao Tang, Xiongwen Zhang*, Fengming Wang, Guojun Li, Numerical investigations for a solid oxide electrolyte cell stack, International Journal of Hydrogen, 44(2019): 20997-21009.
  15. Jiajia Cui, Junkai Wang, Xiongwen Zhang*, Guojun Li, Kai Wu, Yonghong Cheng, Jun Zhou, Enhanced oxygen reduction reaction through Ca and Co Co-doped YFeO3 as cathode for protonic ceramic fuel cells, Journal of Power Sources, 413(2019): 148-157.
  16. Shuzhi Zhang, Baoyu Zhai, Xu Guo, Kaike Wang, Nian Peng, Xiongwen Zhang*, Synchronous estimation of state of health and remaining useful lifetime for lithium-ion battery using the incremental capacity and artificial neural networks, Journal of Energy Storage, 26(2019): 100951.
  17. Tao Ding, Yiting Xu, Hongheng Yang, Zhenbang Li, Xiongwen Zhang, Frede Blaabjerg, A tight linear program for feasibility check and solutions to natural gas flow equations, IEEE Transactions on Power Systems, 34(2019): 2441-2444.
  18. 任 娜,王雅倩,徐宗磊,华秀文,丁 涛,别朝红,张兄文*,多能流分布式综合能源系统容量匹配优化与调度研究,电网技术,2018, 42(11):3504-3511.
  19. 王雅倩,任 娜,徐宗磊,高 山,华秀文,丁涛,别朝红,张兄文*,电/热/气多能转换的可逆固体氧化物燃料电池信息物理融合建模及仿真,电网技术,2018, 42(11): 3535- 3542.
  20. Dong Hua, Guojun Li, Haibin Lu, Xiongwen Zhang*, Pengfei Fan, Investigation of carbon formation on Ni/YSZ anode of solid oxide fuel cell from CO disproportionation reaction, International Communications in Heat and Mass Transfer, 91(2018): 23-29.
  21. Haibin Lu, Dong Hua, Iqabl Taosif, Xiongwen Zhang*, Guojun Li, Di Zhang, Molecular dynamics simulations of the coke formation progress on the nickel-based anode of solid oxide fuel cells, International Communications in Heat and Mass Transfer, 91(2018): 40-47.
  22. N. Yang, Xiongwen Zhang, G. Li, A. Cai, Y. Xu, Effects of temperature differences among cells on the discharging characteristics of lithium-ion battery packs with series/parallel configurations during constant power discharge, Energy Technology, 6(2018): 1067-1079.
  23. Zonglei Xu, Xiongwen Zhang*, Guojun Li, Guoping Xiao, Jianqiang Wang, Comparative performance investigation of different gas flow configurations for a planar solid oxide electrolyzer cell, Int. J. Hydrogen Energy, 42(2017): 10785-10801.
  24. Jiajia Cui, J. Wang, W. Fan, Y. Wan, Xiongwen Zhang*, G. Li, K. Wu et al. Porous YFe0.5Co0.5O3 thin sheets as cathode for intermediate-temperature solid oxide fuel cells, Int. J. Hydrogen Energy, 42(2017): 20164-20175.
  25. Xiongwen Zhang*, Mengyu Li, Yuanfei, Ge, Guojun Li, Techno-economic feasibility anaysis of solar photovoltaic power generation for buildings, Applied Thermal Engineering,  108(2016): 1362-1371.
  26. Zehua Pan, Qinglin Liu, Lan Zhang, Xiongwen Zhang, Siew Hwa Chan, Study of activation effect of anodic current on La0.6Sr0.4Co0.2Fe0.8O3−δ air electrode in solid oxide electrolyzer cell, Electrochimica Acta, 209(2016): 56-64.
  27. Mengyu Li, Xiongwen Zhang*, Guojun Li, Chaoyang Jiang, A feasibility study of microgrids for reducing energy use and GHG emissions in an industrial application, Applied Energy, 176(2016): 138-148.
  28. Tairan Yang, Naixing Yang, Xiongwen Zhang*, Guojun Li, Investigation of the thermal performance of axial-flow air cooling for the lithium-ion battery pack, International Journal of Thermal Sciences, 108 (2016): 132-144.
  29. Penfei Fan, Xiongwen Zhang*, Guojun Li, Experimental study of the carbon deposition from CH4 onto the Ni/YSZ anode of SOFC, Fuel Cells, 16(2016): 235-243.
  30. Mengyu, Xiongwen Zhang*, Guojun Li, A comparative assessment of battery and fuel cell electric vehicles using a well-to-wheel analysis, Energy, 94(2016): 693-704.
  31. N. Yang, Xiongwen Zhang*, B. Shang, G. Li, Unbalanced discharging and aging due to temperature differences
    among the cells in a lithium-ion battery pack with parallel combination, J. Power Sources, 306(2016): 733-741.
  32. C. Zhang, Z. Liu, Xiongwen Zhang, Siew Hwa Chan, Youyi Wang, Dynamic performance of a high-temperature PEM fuel cell – modelling and fuzzy control of purging process, Energy, 95(2016): 425-432.
  33. Zehua Pan, Qinglin Liu, Lan Zhang, Xiongwen Zhang, Siew Hwa Chan, Effect of Sr surface segregation of La0.6Sr0.4Co0.2Fe0.8O3−δ electrode on its electrochemical performance in SOC, Journal of The Electrochemical Society, 2015(162): F1316-F1323.
  34. Xiongwen Zhang*, S. H. Chan, H.K. Ho, S-C. Tan, M. Li, G. Li, J. Li, Z. Feng, Towards a smart energy network: The roles of fuel/electrolysis cells and technological perspectives, Int. J. Hydrogen Energy, 40(2015): 6866-6919.
  35.  N. Yang,  Xiongwen Zhang*,  Guojun Li, Assessment of the forced air-cooling performance for cylindrical lithium-ion battery packs: a comparative analysis between aligned and staggered cell arrangements, Applied Thermal Engineering, 80(2015):55-65.
  36.  N. Yang,  Xiongwen Zhang*,  Guojun Li, State of charge estimation for pulse discharge of a LiFePO4 battery by a revised Ah counting, Electrochimica Acta, 151(2015): 63-71.
  37. N. Yang, Xiongwen Zhang*, Guojun Li, State-of-charge estimation for lithium ion batteries via the simulation of lithium distribution in the electrode particles, Journal of Power Sources, 272 (2014): 68-78.
  38.  Xiongwen Zhang*, A statistical approach for sub-hourly solar radiation reconstruction, Renewable Energy, 71(2014): 307-314.
  39. Xiongwen Zhang*, Siew-Chong Tan, G. Li, Development of an ambient air temperature prediction model, Energy and Buildings, 73(2014): 166-170.
  40. Xiongwen Zhang*, X. Kong, G. Li, J. Li, Thermodynamic assessment of active cooling/heating methods for lithium-ion batteries of electric vehicles in extreme conditions, Energy, 64(2014): 1092-1101.
  41. Y. Zeng, P. Fan, Xiongwen Zhang*, C. Fu, J. Li, G. Li, Sensitivity analysis for a planar SOFC: size effects of the porous gas diffusion layer underneath the channel rib, Fuel Cells, 14(2014): 123-134.
  42.  P. Fan, G. Li, Y. Zeng, Xiongwen Zhang*, Numerical study on thermal stresses of a planar solid oxide fuel cell, Int. J. Thermal Sciences, 77(2014): 1-10.
  43. H. Tian, G. Li, Xiongwen Zhang, Numerical simulation of Rayleigh–Taylor instability based on an improved particle level set method,  Int. J. Comput. Methods, 11(2014)
  44. Xiongwen Zhang*, Siew-Chong Tan, G. Li, J. Li, Z. Feng, Component sizing of hybrid energy systems via the optimization of power dispatch simulation, Energy, 52( 2013):165-172.
  45.   Xiongwen Zhang*, Thermal analysis of a cylindrical lithium-ion battery, Electrochimica Acta, 56(2011): 1246-1255.
  46.  Xiongwen Zhang*, Y-M Wu, A control-oriented dynamic model adapted to variant steam-to-carbon ratios for an SOFC with exhaust fuel recirculation, Fuel Cells, 112011: 200-211.
  47. Xiongwen Zhang, S.H. Chan, G. Li, H.K. Ho, J. Li, Z. Feng, A review of integration strategies for the solid oxide fuel cell, Journal of Power Sources, 1952010: 685-702.
  48. Xiongwen Zhang, J. Li, G. Li, Z. Feng, Numerical study on the thermal characteristics in a tubular solid oxide fuel cell with indirect internal reformer, International Journal of Thermal Science, 482009: 805-814.
  49. Xiongwen Zhang*, S.H. Chan, H.K. Ho, J. Li, G. Li, Z. Feng,Nonlinear model predictive control based on the moving horizon state estimation for the solid oxide fuel cell, International Journal of Hydrogen Energy, 332008:2355-2366.
  50. Xiongwen Zhang, G. Li, J. Li, Z. Feng, Numerical study on the electric characteristics for the solid oxide fuel cells, Energy Conversion and Management, 482007: 977-989.
  51. Xiongwen Zhang, J. Li,G. LiZ. Feng, Cycle analysis of an integrated solid oxide fuel cell and recuperative gas turbine with an air reheating system, Journal of Power Sources, 164 (2006):752-760.
  52. Xiongwen Zhang, J. Li, G. Li, Z. Feng, Development of a control-oriented model for the solid oxide fuel cell, Journal of Power Sources, 1602006: 258-267.
  53. Xiongwen Zhang, J. Li, G. Li, Z. Feng, Dynamic modeling of a hybrid system of the solid oxide fuel cell and recuperative gas turbine, Journal of Power Sources, 1632007: 523-531.
  54. Xiongwen Zhang, J. Li, H. Xu, G. Li, Numerical study of self-adaptive vibration suppression for flexible structure using interior inlay viscous fluid unit metod, Journal of Sound and Vibration, 297 (2006): 627-634.