代表性论文

  1. Peng Song, Junju Sun, Ke Wang, Zhilong He, Development of an optimization design method for turbomachinery by incorporating the cooperative coevolution genetic algorithm and adaptive approximate model, Proceedings of ASME Turbo Expo, June 6-10, 2011, Vancouver, Canada, ASME paper No. GT2011-45411.
  2. Peng Song, Junju Sun, Ke Wang, Axial flow compressor blade optimization through flexible shape tuning by means of cooperative co-evolution algorithm and adaptive surrogate model, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2014, 228(7), 782-798.
  3. Peng Song, Junju Sun, Ke Wang, Swirling and cavitating flow suppression in a cryogenic liquid turbine expander through geometric optimization, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy,2015,229(6):628-646.
  4. Peng Song, Junju Sun, Blade shape optimization for transonic axial flow fan, Journal of Mechanical Science and Technology, 2015, 29(3), 931-938.
  5. Peng Song, Jinju Sun, Kaiqiang Li, Ke Wang, Changjiang Huo, Numerical study of cavitating flow in two-phase LNG expander, Proceedings of ASME Turbo Expo, June 13 – 17, 2016, Seoul, South Korea, ASME paper No. GT2016-56780.
  6. Peng Song, Jinju Sun, Changjiang Huo, Enhancing refrigeration capacity of turbo expander by means of multipoint design optimization, International Journal of Refrigeration, 2019, 108: 60-78.
  7. Peng Song, Jinju Sun, Changjiang Huo, Cavitating flow suppression for a two-phase LNG expander through collaborative fine-turning design optimization of impeller and exducer geometric shape, Journal of Fluids Engineering, 2019.
  8. Peng Song, Jinju Sun, Changjiang Huo, Cryogenic cavitation mitigation in a liquid turbine expander of air-separation unit through collaborative fine-tuned optimization of impeller and fairing cone geometries, Energies, 2019.
  9. Peng Song*, Shengyuan Wang, Jinju Sun, Numerical Investigation and Performance Enhancement by Means of Geometric Sensitivity Analysis and Parametric Tuning of a Radial-Outflow High-Pressure Oil–Gas Turbine, Energies, 2022, 15(22): 8576.
  10. Peng Song*, Jinju Sun, Shengyuan Wang, Multipoint Design Optimization of a Radial-Outflow Turbine for Kalina Cycle System Considering Flexible Operating Conditions and Variable Ammonia-Water Mass Fraction, Energies, 2022, 15(22): 8748.
  11. Xuesong Wang, Jinju Sun, Ernesto Benini, Peng Song*, An overall blockage attenuation-based aerodynamic performance and stability design optimization method for transonic axial flow compressor, International Journal of Numerical Methods for Heat & Fluid Flow, 2022.
  12. Peng Song*, Jinju Sun, Xuesong Wang, Numerical investigation and performance enhancement of an ammonia-water radial-outflow turbine through the flow-oriented optimization, Applied Thermal Engineering, 2023, 222: 119909.
  13. Shan Sun, Jinju Sun, Peng Song*, Cavitation Suppression and Design Optimization in a Cryogenic Liquid Turbine Expander Based on Thermodynamic Cavitation and Entropy Production Analysis, ASME Journal of Fluids Engineering, 2023, 145(1): 011201.
  14. Changjiang Huo, Jinju Sun, Peng Song*, Influence of tooth geometrical shape on the leakage and rotordynamic characteristics of labyrinth seals in a cryogenic liquid turbine expander, International Journal of Refrigeration, 2023, 145: 105-117.
  15. Changjiang Huo, Jinju Sun, Peng Song*, Energy, Exergy and Economic Analyses of an Optimal use of Cryogenic Liquid Turbine Expander in Air Separation Units, Chemical Engineering Research and Design, 2023, 189: 194-209.
  16. Youwei He, Jinju Sun, Peng Song, et al., Dual Kriging assisted efficient global optimization of expensive problems with evaluation failures, Aerospace Science and Technology, 2020, 105: 106006.
  17. Youwei He, Jinju Sun, Peng Song, et al., Preference-driven Kriging-based multiobjective optimization method with a novel multipoint infill criterion and application to airfoil shape design, Aerospace Science and Technology, 2020, 96: 105555.
  18. Youwei He, Jinju Sun, Peng Song, et al., Variable-fidelity expected improvement based efficient global optimization of expensive problems in presence of simulation failures and its parallelization, Aerospace Science and Technology, 2021, 111: 106572.
  19. Youwei He, Jinju Sun, Peng Song, et al., Multi-objective efficient global optimization of expensive simulation-based problem in presence of simulation failures, Engineering with Computers, 2022, 38(3): 2001-2026.
  20. Youwei He, Jinju Sun, Peng Song, et al., Variable-fidelity hypervolume-based expected improvement criteria for multi-objective efficient global optimization of expensive functions, Engineering with Computers, 2022, 38(4): 3663-3689.

发明专利

  1. 孙金菊、王科、宋鹏,Cryogenic liquid turbine, United States invention patent, Application No.2014/369522,Publication No.US20140341716A1, Patent No.9534576B2, Date of Patent: Jan 3, 2017 (2017年1月3日授权)
  2. 孙金菊、王科、宋鹏,一种低温液力透平,申请号 201110455237.5,申请日期2011.12.30,授权公告日:2014.09.03,授权公告号:CN102562170B
  3. 孙金菊、宋鹏、王科,径流式液力透平优化设计方法,申请号201110439235.7,申请日期2011.12.22,授权公告日:2014.03.12,授权公告号CN102608914B
  4. 孙金菊、王科、宋鹏等,一种液体膨胀机,申请号200910023562.7,申请日期2009.08.11,授权公告日:2011.08.31,授权公告号:CN101644170B
  5. 孙金菊、王科、宋鹏,低温液力透平闭式试验系统和测试方法,申请日期2013 年9 月23 日, 中国国家发明专利,专利号201310432913.6,授权公告日2015.04.29,授权公告号:CN103512738A
  6. 孙金菊、王科、宋鹏,一种低温液体膨胀机喷嘴,申请日期20150416,专利号201510183811.4,授权公告日2016.08.26,授权公告号:CN104895623A
  7. 孙金菊、霍长江、宋鹏,一种低温液体膨胀机热启动系统及方法,中国发明专利,申请号:201711058770.1,申请日:20171101,投权公告日:2020.11.10,授权公告号:CN107102431B
  8. 宋鹏、孙金菊、霍长江,一种两相低温液体膨胀机抗空化的优化设计方法,中国发明专利,申请号:201810009053.8,申请日:20180104,授权公告日2020.08.28,授权公告号:CN1083197390B
  9. 孙金菊、袁宁波、宋鹏,一种考虑径向流体力影响的低温液体膨胀机转子临界转速的预測方法,中国发明专利,申请号:201810035.0,授权公告日:2021.01.19,授权公告号:CN108287952B
  10. 宋鹏、孙金菊、霍长江,一种低温液体膨胀机内旋涡空化流动的有效控制方法,中国发明专利,申请号:20181001.4,申请日:20180104,授权公告日:2020.1.10,授权公告号N108561195B
  11. 孙金菊、霍长江、宋鹏,一种基于制冷量分析的低温液体膨胀机节能效益计算方法,中国发明专利,申请号:201811223040.7,申请日:20181019,授权公告日2020.10.27,授权公告号:CN109323532B
  12. 孙金菊、霍长江、宋鹏,基于㶲分析的低温液体膨胀机节能效益的快速计算方法,申请日期2018101,专利号2018112243229,授权公告日2020.05.22,授权公告号:CN109344527B
  13. 孙金菊、霍长江、宋鹏,考虑密封力影响的低温液体膨胀机转子临界转速预测方法,中国发明专利,申请号:2018121905,授权公告日:2021.01.19,授权公告号CN109408946B
  14. 宋鹏、孙金菊,一种低温液体膨胀机全工况优化设计方法,中国发明专利,授权公告日:2022.10.25,授权公告号:CN113158355B
  15. 宋鹏、孙金菊,一种低温液体膨胀机抗空化整流锥协同优化设计方法,中国发明专利,授权公告日:2020.09.20,授权公告号:CN113158356A