英文论文

  1. Y.L. Zhao, C.Y. Wang, M. Liu, D.T. Chong, J.J. Yan, Improving operational flexibility by regulating extraction steam of high-pressure heaters on a 660 MW supercritical coal-fired power plant: A dynamic simulation, Applied Energy 212 (2018) 1295-1309, https://doi.org/10.1016/j.apenergy.2018.01.017. (ESI高被引论文)
  2. Y.L. Zhao, M. Liu, J. Song, C.Y. Wang, J.J. Yan, C.N. Markides, Advanced exergy analysis of a Joule-Brayton pumped thermal electricity storage system with liquid-phase storage, Energy Conversion and Management 231 (2021) 113867, https://doi.org/10.1016/j.enconman.2021.113867.
  3. Y.L. Zhao, M. Liu, C.Y. Wang, Z. Wang, D.T. Chong, J.J. Yan, Exergy analysis of the regulating measures of operational flexibility in supercritical coal-fired power plants during transient processes, Applied Energy 253 (2019) 113487, https://doi.org/10.1016/j.apenergy.2019.113487.
  4. Y.L. Zhao, M. Liu, C.Y. Wang, X. Li, D.T. Chong, J.J. Yan, Increasing operational flexibility of supercritical coal-fired power plants by regulating thermal system configuration during transient processes, Applied Energy 228 (2018) 2375-2386, https://doi.org/10.1016/j.apenergy.2018.07.070.
  5. Y.L. Zhao, J. Song, M. Liu, Y. Zhao, A.V. Olympios, P. Sapin, J.J.Yan, C.N. Markides, Thermo-economic assessments of pumped-thermal electricity storage systems employing sensible heat storage materials, Renewable Energy 186 (2022) 431-456, https://doi.org/10.1016/j.renene.2022.01.017. (ESI高被引论文)
  6. Y.L. Zhao, Y.H. Feng, X.X. Zhang, Selective Adsorption and Selective Transport Diffusion of CO2-CH4 Binary Mixture in Coal Ultramicropores, Environmental Science and Technology 50 (2016) 9380-9389, http://dx.doi.org/10.1021/acs.est.6b01294.
  7. Y.L. Zhao, Y.H. Feng, X.X. Zhang, Molecular simulation of CO2/CH4 self- and transport diffusion coefficients in coal, Fuel 165 (2016) 19-27, http://dx.doi.org/10.1016/j.fuel.2015.10.035.
  8. YL. Zhao, J. Song, M. Liu, K.Z. Zhang, C.N. Markides, J.J. Yan, Multi-objective thermo-economic optimisation of Joule-Brayton pumped thermal electricity storage systems: Role of working fluids and sensible heat storage materials, Applied Thermal Engineering 223 (2023) 119972, https://doi.org/10.1016/j.applthermaleng.2023.119972.
  9. Y.L. Zhao, P.P. Fan, C.Y. Wang, M. Liu, D.T. Chong, J.J. Yan, Fatigue lifetime assessment on a high-pressure heater in supercritical coal-fired power plants during transient processes of operational flexibility regulation, Applied Thermal Engineering 156 (2019) 196-208, https://doi.org/10.1016/j.applthermaleng.2019.04.066.
  10.  D.L. Wang, L. Chen, Y.L. Zhao*, W.X. Chen, C.Y. Wang, J.J. Yan. Thermomechanical stress analysis and fatigue lifetime evaluation of coal-fired boiler components during peak shaving transient processes: Effects of load cycling rate, International Journal of Pressure Vessels and Piping. 206 (2023) 105083, https://doi.org/10.1016/j.ijpvp.2023.105083.
  11.  C.Y. Wang, Y.L. Zhao, M. Liu, Y.Q. Qiao, D.T. Chong, J.J. Yan, Peak shaving operational optimization of supercritical coal-fired power plants by revising control strategy for water-fuel ratio, Applied Energy 216 (2018) 212-223, https://doi.org/10.1016/j.apenergy.2018.02.039. (ESI高被引论文)
  12.  R.Q. Sun, Y.L. Zhao, M. Liu, J.J. Yan. Thermodynamic design and optimization of pumped thermal electricity storage systems using supercritical carbon dioxide as the working fluid, Energy Conversion and Management 271 (2022) 116322, https://doi.org/10.1016/j.enconman.2022.116322.
  13.  K.Z. Zhang, Y.L. Zhao, M. Liu, L. Gao, Y. Fu, J.J. Yan, Flexibility enhancement versus thermal efficiency of coal-fired power units during the condensate throttling processes, Energy 218 (2021) 119534, https://doi.org/10.1016/j.energy.2020.119534.
  14.  Y. Fu, Y.L. Zhao, M. Liu, J.S. Wang, J.J. Yan, Optimization of cold-end system of thermal power plants based on entropy generation minimization, Frontiers in Energy (2021) 1-17, https://doi.org/10.1007/s11708-021-0785-5.
  15. P.Y. Zhang, M. Liu, Y.L. Zhao, J.J. Yan. Performance analysis on the parabolic trough solar receiver-reactor of methanol decomposition reaction under off-design conditions and during dynamic processes, Renewable Energy 205 (2023) 583–97. https://doi.org/10.1016/j.renene.2023.01.097.
  16.  S.Q. Zhang, M. Liu, Y.L. Zhao, K.Z. Zhang, J.P. Liu, J.J. Yan, Thermodynamic analysis on a novel bypass steam recovery system for parabolic trough concentrated solar power plants during start-up processes, Renewable Energy 198 (2022) 973–983, https://doi.org/10.1016/j.renene.2022.08.112.
  17.  S.Q. Zhang, M. Liu, Y.L. Zhao, J.P. Liu, J.J. Yan, Dynamic simulation and performance analysis of a parabolic trough concentrated solar power plant using molten salt during the start-up process, Renewable Energy 179 (2021) 1458-1471, https://doi.org/10.1016/j.renene.2021.07.127.
  18.  P.Y. Zhang, M. Liu, Y.L. Zhao, J.J. Yan, Performance analysis on the parabolic trough solar receiver-reactor of methanol decomposition reaction under off-design conditions and during dynamic processes, Renewable Energy 205 (2023) 583–597, https://doi.org/10.1016/j.renene.2023.01.097.
  19.  S.Q. Zhang, M. Liu, Y.L. Zhao, J.P. Liu, J.J. Yan, Energy and exergy analyses of a parabolic trough concentrated solar power plant using molten salt during the start-up process, Energy 254 (2022) 124480, https://doi.org/10.1016/j.energy.2022.124480.
  20.  C.Y. Wang, M. Liu, Y.L. Zhao, D.T. Chong, J.J. Yan, Entropy generation distribution characteristics of a supercritical boiler superheater during transient processes, Energy 201 (2020) 117596, https://doi.org/10.1016/j.energy.2020.117596.
  21.  K.Z. Zhang, M. Liu, Y.L. Zhao, S.Q. Zhang, H. Yan, J.J. Yan, Thermo-economic optimization of the thermal energy storage system extracting heat from the reheat steam for coal-fired power plants, Applied Thermal Engineering 215 (2022) 119008, https://doi.org/10.1016/j.applthermaleng.2022.119008.
  22.  K.Z. Zhang, M. Liu, Y.L. Zhao, H. Yan, J.J. Yan, Design and performance evaluation of a new thermal energy storage system integrated within a coal-fired power plant, Journal of Energy Storage 50 (2022) 104335, https://doi.org/10.1016/j.est.2022.104335.
  23.  J.J. Yin, M. Liu, Y.L. Zhao, C.Y. Wang, J.J. Yan, Dynamic performance and control strategy modification for coal-fired power unit under coal quality variation, Energy 223 (2021) 120077, https://doi.org/10.1016/j.energy.2021.120077.
  24.  Z. Wang, M. Liu, Y.L. Zhao, C.Y. Wang, J.J. Yan, Comparison on thermodynamic characteristics of single- and double- reheat boilers under off-design working conditions and during transient processes, Applied Thermal Engineering 179 (2020) 115620, https://doi.org/10.1016/j.applthermaleng.2020.115620.
  25.  Z. Wang, M. Liu, Y.L. Zhao, C.Y. Wang, D.T. Chong, J.J. Yan, Flexibility and efficiency enhancement for double-reheat coal-fired power plants by control optimization considering boiler heat storage, Energy 201 (2020) 117594, https://doi.org/10.1016/j.energy.2020.117594.
  26.  C.Y. Wang, M. Liu, Y.L. Zhao, J.J. Yan, Thermodynamic optimization of the superheater during switching the load transient processes, Energy 218 (2021) 119446, https://doi.org/10.1016/j.energy.2020.119446.
  27.  C.Y. Wang, M. Liu, Y.L. Zhao, Z. Wang, J.J. Yan, Thermodynamics analysis on a heat exchanger unit during the transient processes based on the second law, Energy 165 (2018) 622-633, https://doi.org/10.1016/j.energy.2018.09.189.
  28.  C.Y. Wang, M. Liu, Y.L. Zhao, Y.Q. Qiao, J.J. Yan, Entropy generation analysis on a heat exchanger with different design and operation factors during transient processes, Energy 158 (2018) 330-342, https://doi.org/10.1016/j.energy.2018.06.016.
  29.  C.Y. Wang, M. Liu, Y.L. Zhao, Y.Q. Qiao, D.T. Chong, J.J. Yan, Dynamic modeling and operation optimization for the cold end system of thermal power plants during transient processes, Energy 145 (2018) 734-746, https://doi.org/10.1016/j.energy.2017.12.146.
  30.  M. Liu, S. Wang, Y.L. Zhao, H.Y. Tang, J.J. Yan, Heat–power decoupling technologies for coal-fired CHP plants: Operation flexibility and thermodynamic performance, Energy 188 (2019) 116074, http://dx.doi.org/10.1016/j.energy.2019.116074.
  31.  C.Y. Wang, M. Liu, Y.L. Zhao, D.T. Chong, J.J. Yan, Entropy generation distribution characteristics of a supercritical boiler superheater during transient processes, Energy 201 (2020) 117596, https://doi.org/10.1016/j.energy.2020.117596.
  32.  K.Z. Zhang, M. Liu, Y.L. Zhao, C.Y. Wang, J.J. Yan, Entropy generation versus transition time of heat exchanger during transient processes, Energy 200 (2020) 117490, https://doi.org/10.1016/j.energy.2020.117490.
  33.  R.T. Liu, M. Liu, Y.L. Zhao, Y.G. Ma, J.J. Yan, Thermodynamic study of a novel lignite poly-generation system driven by solar energy, Energy 214 (2021) 119075, https://doi.org/10.1016/j.energy.2020.119075. (ESI高被引论文)
  34.  Z. Wang, M. Liu, H. Yan, Y.L. Zhao, J.J. Yan. Improving flexibility of thermal power plant through control strategy optimization based on orderly utilization of energy storage, Applied Thermal Engineering 240 (2024) 122231, https://doi.org/10.1016/j.applthermaleng.2023.122231.
  35.  W. Gao, J.J. Yin, M. Liu, Y.L. Zhao, C.Y. Wang, J.J. Yan. Enhancement of SCR denitrification control strategy considering fluegas temperature fluctuation: Fundamental principle and performance evaluation, Fuel 359 (2024) 130453, https://doi.org/10.1016/j.fuel.2023.130453.
  36.  J.S. Chen, Y. Zhou, J.P. Liu, Y.L. Zhao, S.Q. Zhang, J.J. Yan. Thermodynamic performance of CaCl2 absorption heat pump thermal energy storage system with triple storage tanks, Applied Thermal Engineering 237 (2024) 121713, https://doi.org/10.1016/j.applthermaleng.2023.121713.
  37.  L. Miao, M. Liu, K.Z. Zhang, Y.L. Zhao, J.J. Yan. Energy, exergy, and economic analyses on coal-fired power plants integrated with the power-to-heat thermal energy storage system, Energy 284 (2023) 129236, https://doi.org/10.1016/j.energy.2023.129236.
  38.  W. Gao, M. Liu, J.J. Yin, Y.L. Zhao, W.X. Chen, J.J. Yan. An improved control strategy for a denitrification system using cooperative control of NH3 injection and flue gas temperature for coal-fired power plants, Energy 282 (2023) 128759, https://doi.org/10.1016/j.energy.2023.128759.
  39.  Y. Zhao, J. Song, C.Y. Zhao, Y.L. Zhao, C.N. Markides, Thermodynamic investigation of latent-heat stores for pumped-thermal energy storage, Journal of Energy Storage 55 (2022) 105802, https://doi.org/10.1016/j.est.2022.105802.
  40.  R.T. Liu, M. Liu, P.P. Fan, Y.L. Zhao, J.J. Yan, Thermodynamic study on a novel lignite poly-generation system of electricity-gas-tar integrated with pre-drying and pyrolysis, Energy 165 (2018) 140-152, https://doi.org/10.1016/j.energy.2018.09.169.
  41.  C.Y. Wang, Y.Q. Qiao, M. Liu, Y.L. Zhao, J.J. Yan, Enhancing peak shaving capability by optimizing reheat-steam temperature control of a double-reheat boiler, Applied Energy 260 (2020) 114341, https://doi.org/10.1016/j.apenergy.2019.114341.
  42.  C.Y. Wang, Z.F. Liu, M.Y. Fan, Y.L. Zhao, M. Liu, J.J. Yan, Enhancing the flexibility and efficiency of a double-reheat coal-fired power unit by optimizing the steam temperature control: From simulation to application, Applied Thermal Engineering 217 (2022) 119240, https://doi.org/10.1016/j.applthermaleng.2022.119240.
  43.  H. Yan, D.T. Chong, Z. Wang, M. Liu, Y.L. Zhao, J.J. Yan, Dynamic performance enhancement of solar-aided coal-fired power plant by control strategy optimization with solar/coal-to-power conversion characteristics, Energy (2021), https://doi.org/10.1016/j.energy.2021.122564.
  44.  H.J. Wang, Y.H. Feng, X.X. Zhang, W. Lin, Y.L. Zhao, Study of coal hydropyrolysis and desulfurization by ReaxFF molecular dynamics simulation, Fuel 145 (2015) 241-248, http://dx.doi.org/10.1016/j.fuel.2014.12.074.

中文论文

  1. 赵永亮,张利,刘明,等.660MW燃煤机组热力系统构型调整对 一次调频性能的影响研究[J].中国电机工程学报201939(12)3587-3597(中国科协第八届优秀科技论文遴选计划入选论文)
  2. 赵永亮,许朋江,居文平,等.燃煤发电机组瞬态过程灵活高效协同运行的理论与技术研究综述[J].中国电机工程学报202343(6)2080-2099
  3. 赵永亮,王朝阳,刘明,等.基于跨临界循环的卡诺电池储能系统构型优化[J].工程热物理学报202142(7)1659-1666
  4. 赵永亮,刁保圣,韩翔,等.660 MW超临界燃煤机组变负荷过程动态特性的仿真研究[J].中国电力201952(5)13-20
  5. 赵永亮,刘明,王朝阳,等.基于固体填料床的泵热储能系统热-经济性分析[J].华电技术202143(7)1-8
  6. 樊梦阳, 赵永亮*, 张成宇, 王朝阳, 刘明, 严俊杰. 高低位分轴布置燃煤发电机组不同抽汽节流方案的运行灵活性研究[J].工程热物理学报,202344(11). 2991-2998.
  7. 张可臻, 赵永亮, 刘明, 严俊杰. 燃煤机组凝结水节流过程蓄㶲转换特性分析[J].工程热物理学报202142(8)1936-1943
  8. 刘明,赵永亮,王朝阳,等.二次再热机组回热抽汽过热能量回收节能潜力分析[J].热力发电201746(8)49-53
  9. 范佩佩,赵永亮,种道彤,等.不同启动方式对高温过热器出口联箱应力与寿命的影响[J].动力工程学报201939(03)184-190
  10. 张可臻, 刘明, 赵永亮, 严俊杰. 燃煤机组集成再热蒸汽熔盐储热系统的运行灵活性与热力性能分析[J].工程热物理学报202344(9)2331-2339
  11. 王朝阳,刘明,赵永亮,等.再热蒸汽调温方式对机组变负荷能耗特性的影响[J].工程热物理学报201839(10)2138-2143
  12. 张可臻, 黄智, 王朝阳, 赵永亮,等. 相变换热单元动态过程的不可逆性分析[J].工程热物理学报202142(5)1100-1106
  13. 李昕,魏宏博,刘明,赵永亮,等.660 MW光煤互补系统动态特性仿真研究[J].工程热物理学报202041(8)1837-1844
  14. 伦涛,鄂志君,张利,王鑫,赵永亮,等.燃煤机组不同灵活性调节方案参与一次调频过程的经济性分析[J].中国电力201952(8)164-172
  15. 王珠,韩翔,许立环,刘明,赵永亮,等.二次再热机组一次调频特性的研究[J].电力科技与环保201935(2)8-12

发明专利

  1. 赵永亮, 严俊杰, 刘明, 种道彤, 基于燃煤机组热力系统蓄㶲修正的一次调频优化控制方法, 中国发明专利, 2020, 专利号:ZL 201910189043.1.
  2. 严俊杰, 赵永亮, 刘明, 种道彤, 参与一次调频的太阳能辅助燃煤发电系统及其控制方法, 中国发明专利, 2020, 专利号:ZL 201910189573.6.
  3. 严俊杰, 赵永亮, 刘明, 种道彤, 燃煤机组高压加热器抽汽节流参与的再热汽温控制方法, 中国发明专利, 2020, 专利号:ZL 201910189044.6.
  4. 刘明, 赵永亮, 严俊杰, 种道彤, 一种计及燃煤锅炉蓄㶲修正的瞬态变负荷给煤量控制方法, 中国发明专利, 2020, 专利号:ZL 201910189042.7.
  5. Y.L. Zhao, J.J. Yan, M. Liu, D.T. Chong, Optimized control method for primary frequency regulation based on exergy storage correction of thermodynamic system of coal-fired unit, USA Patent, 2021, Patent number: US 11146069B2.
  6. J.J. Yan, Y.L. Zhao, M. Liu, D.T. Chong, Solar aided coal-fired power generation system participating in primary frequency regulation and control method thereof, USA Patent, 2021, Patent number: US11236633B2.
  7. M. Liu, Y.L. Zhao, J.J. Yan, D.T. Chong, Method for controlling coal supply quantity during transient load-varying process considering exergy storage correction of boiler system of coal-fired unit, USA Patent, 2021, Patent number: US 11204162B2.
  8. 刘明, 张旭伟, 赵永亮, 严俊杰, 种道彤, 一种节能热电解耦系统及运行方法, 中国发明专利, 2020, 专利号:ZL 201810132502.8.