科研项目

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项目编号 项目名称 项目来源 起讫时间 承担角色 项目类别
51776155 高精度时空间断谱元方法求解复杂区域跨音速流动及声传播问题 其他 2018-01~2021-12 负责人 纵向项目
35150014-15-ZC0607-0003 长输天然气管线压缩机系统能耗最优化研究 国务院各部委项目 2016-01~2020-12 负责人 横向项目
2012CB026004 高端压缩机组高效可靠及智能化基础研究 973项目 2012-1~ 负责人 纵向项目
51076123 谱元法结合大涡模拟方法的气动声音高精度数值模拟 国家自然科学基金项目 2011-1~ 负责人 纵向项目
200806980002 谱元方法高精度模拟动静叶栅相互作用的气动噪声 国家教育部项目 2009-1~ 负责人 纵向项目
50676071 动静叶栅相互作用气动声音的高精度模拟 国家自然科学基金项目 2007-1~ 负责人 纵向项目
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显示6结果中的1-6。

期刊论文

  1. Wang Yazhou, Tamma Kumar K., Xue Tao, Maxam Dean, Qin Guoliang. Generalized Petrov-Galerkin time finite element weighted residual methodology for designing high-order unconditionally stable algorithms    with controllable numerical dissipation[J]. Journal of Computational Physics. 2021, 430:110097.(WOS:000624309300002)
  2. He Wenqiang, Qin Guoliang, Wang Yazhou, Bao Zhenzhong. A segregated spectral element method for the 2D transient incompressible Navier-Stokes equations[J]. Computers & Fluids. 2021, 216:104643(WOS:000605755700001)
  3. Wang Yazhou, Tamma Kumar, Maxam Dean. Xue Tao, Qin Guoliang.  An Overview of High-Order Implicit Algorithms for First-/Second-Order Systems and Novel Explicit Algorithm Designs for First-Order System Representations[J]. Archives of Computational Methods in Engineering. 2021(WOS:000613625600002)
  4. Wang Yazhou, Xue Tao, Tamma Kumar K., Maxam Dean, Qin Guoliang. An accurate and simple universal a posteriori error estimator for GS4-1 framework: Adaptive time stepping in first-order transient systems[J]. Computer Methods in Applied Mechanics and Engineering. 2021,374:113604.( WOS:000608741800005)
  5. Wang Yazhou, Maxam Dean, Tamma Kumar K., Qin Guoliang. Design/analysis of GEGS4-1 time integration framework with improved stability and solution accuracy for first-order transient systems[J]. Journal of Computational Physics. 2020,422:109763.( WOS:000580588400015)
  6. Ai Zijian, Qin Guoliang, Lin Jingxiang, Chen Xuefei, He Wenqiang. Variable-speed method for improving the performance of a mine counter-rotating fan[J]. Energy Science & Engineering. 2020, 8(7):2412-2425.(WOS:000544716900011)
  7. Ye Ximeng, Qin Guoliang, Wang Yazhou. An accurate triangular spectral element method-based numerical   simulation for acoustic problems in complex geometries[J]. International Journal of Aeroacoustics. 2020, 19(3-5):158-190.(WOS:000542695900001)
  8. He Wenqiang, Qin Guoliang, Wen Xiaoping, Lin Jingxiang, Jia Cheng. Resonant enhancement of thermomagnetic convection of paramagnetic fluid in an enclosure due to time-periodic magnetizing force[J]. Numerical Heat Transfer Part A-Application. 2020,78(1):1-17.(WOS:000534120900001)
  9. Lin Jingxiang, Qin Guoliang, Jia Cheng. Design and experimental study of an indirect heat pump distillation   system for treating high-concentration saline wastewater[J]. Desalination and Water Treatment. 2020,182:434-448.(WOS:000545015800043)
  10. Lin Jingxiang, Qin Guoliang, Yue Han. Optimization of binary zeotropic mixture working fluids for an organic Rankine cycle for waste heat recovery between centrifugal compressor stages[J]. Energy Science & Engineering. 2020, 8(5):1746-1757(WOS:000510162600001)
  11. He Wenqiang, Qin Guoliang, Lin, Jingxiang, Jia, Cheng. A segregated spectral finite element method for the 2D transient incompressible Navier-Stokes equations[J]. Computers & Mathematics with Applications. 2020, 79(2):521-537(WOS:000514017700021)
  12. Wang Yazhou, Qin Guoliang, He Wenqiang, Ye, Ximeng. Spectral element method for numerical simulation of ETHD enhanced heat transfer in an enclosure with uniform and sinusoidal temperature boundary conditions[J]. International Journal of Heat and Mass Transfer, 2019,141:949-963(WOS:000480665000079)
  13. Wang Yazhou, Qin Guoliang, Ye Ximeng, Bao Zhenzhong. SEM-based numerical framework for non-Darcy mixed convection in a porous cavity with three adiabatic thin baffles on the hot wall[J]. International Journal of Numerical Methods for Heat & Fluid Flow, 2019,29(9):3366-3393. (WOS:000486026500018)
  14. He Wenqiang, Qin Guoliang, Wang Yazhou, Bao, Zhenzhong. A segregated spectral element method for thermomagnetic convection of paramagnetic fluid in rectangular enclosures with sinusoidal temperature    distribution on one side wall[J]. Numerical Heat Transfer Part A-Application 2019,76(2):51-72.( WOS:000469090200001)
  15. Wang Yazhou, Qin Guoliang, Tamma, Kumar K., Geng Yanhui. Accurate solution for natural convection around single and tandem circular cylinders inside a square enclosure using SEM[J]. Numerical Heat Transfer Part A-Application 2019,75(9):579-597.( WOS:000469039100001)
  16. Wang Yazhou, Qin Guoliang. Accurate numerical simulation for non-Darcy double-diffusive mixed    convection in a double lid-driven porous cavity using SEM[J]. Numerical Heat Transfer Part A-Application 2019,75(9):598-615.( WOS:000469039100002)
  17. Li Yuan, Qin Guoliang, Xiong Zhiyi, Ji YunFeng, Fan Ling. The effect of particle humidity on separation efficiency for an axial cyclone separator[J]. Advanced Power Technology. 2019,30(4):724-731.( WOS:000461303500007)
  18. Jia Cheng, Qin Guoliang, Chen Xuefei, Wang, Yi. Numerical Simulation of Surge in a Centrifugal Compressor with Different Operating Condition Using the Plenum Model[C]. PROCEEDINGS OF THE ASME TURBO EXPO: TURBOMACHINERY TECHNICAL CONFERENCE AND EXPOSITION, 2019,2A.( WOS:000501627800060)
  19. Bao Zhenzhong, Qin Guoliang, He Wenqiang, Wang Yazhou. Numerical investigation of flow around a slotted circular cylinder at low Reynolds number[J]. Journal of Wind Engineering and Industrial Aerodynamics, 183:273-283(WOS:000454382100019)
  20. Jingxiang Lin, Guoliang Qin, Cheng Jia, Design and Experimental Analysis of a Vapor Compression Heat Pump Combined with Double-Stage Forced-Circulation Evaporators[J]. Energy Science & Engineering,2018,6(5),523-534 (WOS:000447757600015)
  21. Wang YZ, Qin GL. An improved time-splitting method for simulating natural convection heat transfer in enclosure cavity by Legendre spectral element approximation[J]. Computers and Fluids,2018,174:122-134, (WOS:000447099100009, EI: 20183105637550)
  22. Zhenzhong Bao, Guoliang Qin. Application of Spectral Element Method Combining Dilatation Theory to Sound Generated by a Co-rotating Vortex Pair[J]. International Journal of Acoustics and Vibration, 2018, 23(2):147-156. (WOS: 000435810900005, EI: 20182805545390)
  23. Yazhou Wang, Guoliang. Qin, Wenqiang He, Zhenzhong Bao, Chebyshev spectral element method for natural convection in a porous cavity under local thermal non-equilibrium model, International Journal of Heat and Mass Transfer [J], 2018, 121:1055–1072.(SCI: 000430030300092 , EI: 20180704782766)
  24. Zhenzhong Bao, Guoliang Qin, Wenqiang He, Yazhou Wang. Spectral Element Numerical Investigation of Flow Between Three Cylinders in an Equilateral-triangular Arrangement with Different Spacing Distances[J]. Shock and Vibration, 2018, 2018:1-11. (SCI: 000434171100001, EI: 20180704782766)
  25. Geng YH, Qin GL, Zhang JZ. Spectral element method for wave propagation on irregular domains[J]. Sadhana-Academy proceedings in engineering sciences, 2018, v 43, n 3, March 1. ( SCI:000429178800002, IF:0.465, EI: 20181204929044)
  26. Zijian Ai, Guoliang Qin, Jingxiang Lin, Xuefei Chen, 2018, "Experimental study on the speed matching of two rotors for a counter-rotating fan," ASME Proceedings of the Power & Energy Conference and Exhibition, Paper No. PowerEnergy2018-7108.
  27. Geng YH, Qin GL, Zhang JZ, He WQ, Bao ZZ, Wang YY. Space-time spectral element method solution for the acoustic wave equation and its dispersion analysis[J]. Acoustical Science and Technology, 2017, 38(6): 303-313 (SCI: 000422645500004)
  28. Chen X F, Qin G L, Ai Z J, Ji Y F, 2017, "Numerical analysis of flow in a centrifugal compressor with circumferential grooves: influence of groove location and number on flow instability," IOP Conference Series: Materials Science and Engineering 232(2017) (EI: 20175004542322 )
  29. Chen, Xuefei; Ai, Zijian; Ji, Yunfeng; Qin, Guoliang, Numerical investigation of a centrifugal compressor with a single circumferential groove in different types of diffusers, ASME Turbo Expo 2017: Turbomachinery Technical Conference and Exposition, GT 2017, (EI:20173704150616)
  30. Ai, Zijian; Qin, Guoliang; Chen, Xuefei; Lin, Jingxiang; He, Wenqiang, Speed matching of the second rotor in a counter-rotating fan under off-design conditions, ASME 2017 Power Conference Joint with ICOPE 2017, POWER 2017-ICOPE 2017, (EI: 20173904216155)
  31. Zhenzhong, Bao; Guoliang, Qin, Investigation of aeroacoustics problems using a discontinuous Galerkin spectral element method, 24th International Congress on Sound and Vibration, ICSV 2017,(EI: 20173804176660)
  32. Chao Cheng, L Wang, G.B Liu, et al. Performance analysis of compressor unit for mixture refrigerant liquefaction cycle with a separator[J].Journal of Natural Gas Science & Engineering. 2016,33:803-807.( SCI: 000381594000072, EI: 20162502522428)
  33. Chen, X.F. ; Qin, G.L.; Ai, Z.J. Numerical investigation of a centrifugal compressor with circumferential grooves in vane diffuser. IOP Conference Series: Materials Science and Engineering, v 90, n 1, July 30, 2015, 9th International Conference on Compressors and Their Systems, ISSN: 17578981, E-ISSN: 1757899X; DOI:10.1088/1757-899X/90/1/012043(EI: 20153701268009)
  34. Li Xiaozhu, Chen Gang, Qin Guoliang, Research for the Fluid Field of the Centrifugal Compressor Impeller in Accelerating Startup, International Journal of Turbo & Jet-Engines 2013,30,1,91-100(SCI:000324580900008, EI: 20131416159913)
  35. Zhu,Changyun, Qin Guoliang, Performance prediction of centrifugal compressor based on performance test, similarity conversion and CFD simulation, International Journal of Fluid Machinery and Systems, 2012,5,no.1,38-48(EI: 20124115558581)
  36. Zhu, Changyun; Qin, Guoliang; Zhang, Jiazhong, Implicit Chebyshev spectral element method for acoustics wave equations, Finite Elements In Analysis and Design, 2011,47, 2: 184-194(SCI:000284405900011, EI: 20104813434100 )
  37. Rongxin ZHANG, Guoliang QIN, Changyun ZHU, Spectral Elements Method for Acoustic Propagation Problems Based on Linearized Euler Equations, Journal of Computational Acoustics, 2009, 4: 383-402. (SCI: 000274462200004)
  38. 叶晰萌,秦国良,王亚洲,平面叶栅气动噪声的高精度谱元方法求解,工程热物理学报,2021,42(2):915-921
  39. 和文强,秦国良,包振忠,王亚洲,稳定化谱元方法求解二维稳态对流扩散方程,哈尔滨工程大学学报,2018,39,3:446-451(EI: 20181304958994)
  40. 王亚洲,秦国良. Least-SquaresGalerkin谱元方法求解环形区域内的泊松方程 [J]. 西安交通大学学报,201751(5)121-127. (EI20173804167145)
  41. 王亚洲, 秦国良, 包振忠等. 时空耦合谱元方法求解刚性圆柱体表面的声传播问题 [J]. 西安交通大学学报,201751(7)24-29+97. (EI20174104252785)
  42. 王亚洲,秦国良,和文强,包振忠.时空耦合谱元方法求解一维Burgers方程[J].西安交通大学学报,2017,51(01):45-50.(EI: 2017100342228)
  43. 程超,秦国良,张家忠,陈党民,李新宏.扩压器对基本级性能的影响[J].航空动力学报,2017,32(01):248-256.(EI: 20171203478282)
  44. 程超,秦国良,张家忠,陈党民,李新宏.基本级叶片扩压器扩压度改进的闭式试验研究[J].推进技术,2017,38(05):1047-1054.(EI: 2017380416718)
  45. 艾子健,秦国良,林静祥,陈雪飞,和文强.对旋风机两级叶轮等功率第二级叶轮变转速匹配研究[J].西安交通大学学报,2017,51(03):1-6.(EI: 2017280393885)
  46. 史云昊,陈雪飞,宁远钊,毛远帆,秦国良.采用关联模型的离心压缩机喘振工况数值研究[J].西安交通大学学报,2017,51(05):128-133.EI: 20173804167146
  47. 和文强,秦国良,艾子健,林静祥.一种求解反应对流扩散方程的稳定化谱元方法[J].西安交通大学学报,2017,51(03):27-31.(EI: 2017280393886)
  48. 艾子健,秦国良,和文强,陈雪飞,对旋风机变工况下两级叶轮变转速匹配研究,哈尔滨工程大学学报,2016,37,4:592-597(EI:20162102417951)
  49. 包振忠,秦国良,耿艳辉,和文强,谱元法应用于涡声传播问题的研究,西安交通大学学报,2016,50,11:110-115(EI:20164803066207)
  50. 和文强,秦国良,谱元方法求解对流扩散方程及其稳定性分析,西安交通大学学报,2015,49,1,1-6(EI: 20151200672402)
  51. 耿艳辉,秦国良,王阳,贺唯. Galerkin时空耦合谱元法求解声波动方程[J].声学学报,2013,38,3,306-318 (EI 20132316396295)
  52. 耿艳辉,秦国良, Chebyshev谱元法求解含吸收边界的二维均匀稳定流场的声传播, 西安交通大学学报,2012,3,100-106, (EI20121514937932)
  53. 张荣欣, 秦国良, 许丽娜,管道声传播问题的一种高精度数值模拟,振动与冲击,2010,29,8:115-119 (EI20104113283500)
  54. 张荣欣, 秦国良,用切比雪夫谱元方法求解均匀流场中的声传播问题,西安交通大学学报,2009,43,7:120-124 EI20093212244422
  55. 朱昌允, 秦国良, 徐忠,谱元方法求解波动方程时显式与隐式差分方法的比较,西安交通大学学报,2008,42,9:1142-1145(EI: 20084211646884 )
  56. 朱昌允, 秦国良, 徐忠,谱元方法求解波动方程及影响其数值精度的相关因素,西安交通大学学报,2008,42,1:56-59 (EI: 20080911124457)
  57. 许靖, 秦国良, 朱昌允,谱元方法求解含吸收边界的声学问题,西安交通大学学报,2007,41,7:875-878(EI: 20073410776892 )
  58. 秦国良,陈雪江,武珑,极坐标系下谱元方法求解不可压缩Navier-Stokes方程,空气动力学学报,2004,22,2:216-219(EI: 2004378354969)
  59. 陈雪江,秦国良,武珑,徐忠,谱元方法求解环形空间内自然对流换热,应用力学学报,2004,21,3:121-124 (EI: 2004478470836 )