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机译:具有曲线元素叶片以改善压缩机性能的离心式压缩机叶轮设计指南的建议和实验验证
Hitachi Research Laboratory,Advanced Simulation Research Department, Mechanical Engineering Research Center, Hitachi, Ltd., 832-2 Horiguchi, Hitachinaka, Ibaraki 312-0034, Japan;
Fluid Dynamics R&D Department,Turbomachinery R&D Center, Infrastructure System Company, Hitachi, Ltd., 603 Kandatsu, Tsuchiura, Ibaraki 300-0013, Japan;
Hitachi Research Laboratory,Reliability Science Research Department, Mechanical Engineering Research Center, Hitachi, Ltd., 832-2 Horiguchi, Hitachinaka, Ibaraki 312-0034, Japan;
Compressor Division, Compressor Design Department, Tsuchiura Works, Infrastructure System Company, Hitachi, Ltd., 603 Kandatsu, Tsuchiura, Ibaraki 300-0013, Japan;
Compressor Division,Compressor Design Department, Tsuchiura Works, Infrastructure System Company, Hitachi, Ltd., 603 Kandatsu, Tsuchiura, Ibaraki 300-0013, Japan;
机译:IGV预先施用对叶轮叶片振动的实验测定在非崇拜离心压缩机中的振动
机译:离心压缩机级的数值和实验建模–设置带有2D叶片的叶轮模型
机译:离心压缩机级的数值和实验建模–设置带有2D叶片的叶轮模型
机译:曲线型叶轮离心压缩机叶轮设计指南的建议和实验验证,可提高压缩机性能
机译:叶轮叶片修整对离心压缩机性能的影响。
机译:基于平方包络谱的离心压气机叶片裂纹分类实验研究
机译:采用遗传算法和计算流体动力学方法优化叶轮设计,提高离心式压缩机性能
机译:13.65厘米尖端直径串联式回扫离心式压缩机的实验性能设计压力比为6