The theory relating to the interaction of entropy fluctuations ('hot spots'), as well as vorticity and pressure, with blade rows is described. A basic feature of the model is that the blade rows have blades of sufficiently short chord that this is negligible in comparison with the wavelength of the disturbances. For the interaction of entropy with a blade row to be important, it is essential that the steady pressure change across the blade row should be large, although all unsteady perturbations are assumed small. A number of idealized examples have been calculated, beginning with isolated blade rows, progressing to single and then to several turbine stages. Finally, the model has been used to predict the low-frequency rearward-radiated acoustic power from a commercial turbojet engine. Following several assumptions, together with considerable empirical data, the correct trend and level are predicted, suggesting the mechanism to be important at low jet velocities. udud
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机译:描述了与熵波动(“热点”)以及涡度和压力与叶片排的相互作用有关的理论。该模型的基本特征是叶片排的叶片弦长足够短,与干扰波长相比,可以忽略不计。为了使熵与叶片排的相互作用很重要,至关重要的是,尽管假定所有非稳态扰动很小,但叶片排上的稳态压力变化应较大。已经计算出许多理想的示例,从孤立的叶片行开始,发展到单个,然后发展到多个涡轮机阶段。最后,该模型已用于预测商用涡轮喷气发动机的低频向后辐射声功率。遵循几个假设以及可观的经验数据,可以预测正确的趋势和水平,这表明该机理在低射流速度下很重要。 ud ud
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