共查询到16条相似文献,搜索用时 46 毫秒
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为了研究分布式能源燃气轮机可调进口导叶的叶顶间隙,以某型燃气轮机跨音速级的轴流压气机为 研究对象,采用NUMECA软件对可调进口导叶的不同叶顶间隙方案进行了数值模拟,分析了可调进口导叶叶 顶间隙的仿真方法,以及对压气机跨音速级性能的影响。结果表明:若忽略可调进口导叶的部分间隙,将减 小压气机的堵塞流量,增大高负荷工况的效率;部分间隙的泄漏流增加了可调进口导叶叶顶区域的总压损 失,增大了下游动叶的人口冲角,并改变了近堵塞工况时下游动叶内的激波结构。建议在三维仿真时,不可 忽略可调进口导叶的部分间隙结构 相似文献
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为研究间隙变化对轴流压气机转子近失速工况下叶顶流场结构的影响,以轴流压气机转子Rotor37为研究对象,对其叶顶流场进行定常和非定常的数值模拟。计算结果表明:随着叶顶间隙的减小,压气机的总压比和等熵效率均有所提高,稳定运行范围扩大;2倍设计间隙下,叶尖泄漏涡经激波作用后发生膨胀破碎,堵塞来流通道,诱发压气机堵塞失速;0.5倍设计间隙下,吸力面流动分离加剧,发生回流,部分回流与来流在压力面前缘上游发生干涉,进口堵塞加剧,致使部分来流从前缘溢出,导致压气机叶尖失速;不同间隙下压气机失速过程的主导因素不同,大间隙下失速由叶尖泄漏涡破碎的非定常波动引起,小间隙下失速主要由流动分离引发的周期性前缘溢流所主导。 相似文献
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《内燃机与动力装置》2017,(5):25-30
针对涡轮增压器压气机的叶顶间隙进行数值模拟计算,探究其对压气机效率损失的影响。研究结果表明:在均匀叶顶间隙下,随着叶顶间隙的增大,压气机的效率随之降低;在恒定转速下,随着压气机稳定流量的增加,叶顶间隙变化引起的效率衰减量逐渐增加;在恒定流量下,随着压气机转速的增加,叶顶间隙的变化引起的效率损失逐渐减小;在变叶顶间隙下,叶轮出口叶顶间隙的减小可以使压气机效率得到明显的改善。 相似文献
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基于两种不同压气机叶顶间隙,研究叶顶间隙对压气机效率、压比等增压器性能参数以及动力经济性、常规气态物排放、进排气情况等柴油机性能参数的影响。结果表明:相同工况下,小叶顶间隙压气机的效率比大叶顶间隙压气机高约3%且高效区域范围更大。装有小叶顶间隙压气机时进气流量增幅达6%;进气中冷后温度有所降低,最大降幅为19%;发动机动力输出增幅达2%;NOx体积排放量减少,最大降幅为15%;THC体积排放量增加,最大增幅为100%。叶顶间隙对CO排放、CO2排放、发动机排气背压及比油耗基本无影响。 相似文献
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叶顶间隙对压气机性能的影响 总被引:2,自引:0,他引:2
对某多级轴流压气机的其中两级的内部流场进行了全三维的CFD数值模拟,模拟结果与设计的级间参数比较吻合.通过对0.5倍设计间隙、1倍设计间隙和2倍设计间隙3个不同间隙的模拟结果的比较,探讨了间隙的大小对多级压气机总体性能的影响;通过内部流场的详细分析,揭示了间隙泄漏损失的特征. 相似文献
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The present study investigated the spectrum characteristics of unsteady disturbance and the tip leakage vortex evolution during pre-stall process for a contra-rotating axial compressor(CRAC). Transient numerical simulation was carried out in a single passage of the CRAC. The original transient fluctuation and oscillation of the tip leakage vortex structure with varying flow capacity of the CRAC were revealed using circle-like pattern figure and phase-locked root mean square(PLRMS). Additionally, the tip leakage flow in terms of vortex structure evolution was visualized for the sake of revealing the flow mechanism during pre-stall process. Results show that the unsteady fluctuation first appears at φ=0.3622, and the fluctuation frequency is 2.86 BPF. Unsteady disturbance source is mainly located at the tip side of the downstream rotor leading edge. From the choking point to the near stall condition, tip leakage vortex is always found in the tip leading edge of the upstream rotor. In addition, the tip leakage vortex of upstream rotor remains in the same place over time, i.e., no fluctuation, even when the downstream rotor entered into stall state. Such a phenomenon indicates that the stall point of the contra-rotating compressor is determined by the downstream rotor. Moreover, the maximum fluctuation position is mainly concentrated on the interface between the mainstream and the tip leakage vortex of the downstream rotor. By throttling the compressor, the angle between the main leakage vortex and the circumferential direction decreases gradually. When the main leakage vortex touches and continuously impacts on the leading edge of the adjacent blade, the unsteady disturbance, which is different from that of BPF, appears firstly. 相似文献
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以带进口导叶的某跨声速高负荷高速单极风扇为研究对象,以转子尖部叶栅前缘半径量化叶尖间隙,相对叶尖间隙范围为0~4。采用NUMECA软件,基于S-A湍流模型进行数值模拟。计算结果表明:相对叶尖间隙为0.1时风扇综合性能最佳;尖部叶栅通道内激波后有附面层分离的低速流与泄漏流两类流动;当相对叶尖间隙在0~4范围内变动时,附面层分离逐渐被抑制,泄漏流逐渐增强;当相对叶尖间隙小于1时附面层分离的低速流占主导;当相对叶尖间隙大于1时泄漏流占主导;当相对叶尖间隙等于1时激波后的流动从附面层分离低速流过渡到泄漏流状态。 相似文献
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The gas turbine is the main power equipment for naval ship and special civil ship,while the compressor is one of the core structures of the gas turbine.The exis... 相似文献
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