A self-acting spiral groove inter-shaft ring seal of nominal 16.33 cm (6.43 in.) diameter for sealing fan bleed air between counter rotating shafts in advanced turbofan engines was analyzed. The analysis focused on the lift force characteristics of the spiral grooves. A NASA Lewis developed computer program for predicting the performance of gas lubricated face seals was used to optimize the spiral groove geometry to produce maximum lift force. Load capacity curves (lift force as function of film thickness) were generated for four advanced turbofan engine operating conditions at relative seal speeds ranging from 17,850 to 29,800 rpm, sealed air pressures from 6 to 42 N/sq cm (9 to 60 psi) absolute and temperatures from 95 to 327 C (203 to 620 F). The relative seal sliding speed range was 152 to 255 m/sec (500 to 836 ft/sec). The analysis showed that the spiral grooves are capable of producing sufficient lift force such that the ring seal will operate in a noncontacting mode over the operating range of typical advanced turbofan engines.
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机译:分析了公称直径为16.33厘米(6.43英寸)的自作用螺旋槽轴间环形密封件,用于密封先进涡轮风扇发动机中反向旋转轴之间的风扇引气。分析集中在螺旋槽的升力特性上。 NASA Lewis开发的用于预测气体润滑的面密封件性能的计算机程序用于优化螺旋槽的几何形状,以产生最大的升力。在相对密封速度范围为17,850至29,800 rpm,绝对密封空气压力为6至42 N / sq cm(9至60 psi)的绝对密封速度下,生成了四种先进涡扇发动机工况的负载能力曲线(升力与膜厚的关系)。温度从95到327 C(203到620 F)。相对密封件的滑动速度范围为152至255 m / sec(500至836 ft / sec)。分析表明,螺旋形凹槽能够产生足够的升力,从而使环形密封件在典型的先进涡扇发动机的工作范围内以非接触方式工作。
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