脉冲爆震发动机

  • 网络pulse detonation engine;Pde
脉冲爆震发动机脉冲爆震发动机
  1. 研究结果对于煤油/空气气动阀式脉冲爆震发动机的总体优化设计,提高PDE的工作性能具有重要的参考价值。

    This investigation is important to the design optimization of the kerosene / air pneumatic-valve PDE , and to improve the performance of PDE .

  2. 实现了对脉冲爆震发动机的闭环控制。

    The PDE closed loop control was realized . 3 .

  3. 与单管脉冲爆震发动机(PDE)相比,多管PDE在将面临各脉冲爆震管协调工作的设计难点。

    Compared with single tube PDE , there are many difficulties in coordinate work of each pulse detonation tube .

  4. 为了提高多管脉冲爆震发动机的容积利用率,提高PDE的性能,采用扇形截面爆震管。

    In order to improve the volume utilization and high performance of multitude pulse detonation engine , a sector cross-section tube was used .

  5. 设计了一台内径58mm,长度1275mm的脉冲爆震发动机(PDE)原型机。

    A two-phase Pulse Detonation Engine ( PDE ) model was designed which the diameter and the length are 58 mm and 1275 mm respectively .

  6. 在汽油空气吸气式脉冲爆震发动机(PDE)协调工作的基础上,利用动态压力传感器测量了爆震波峰值压力。

    Based on the coordinately working of air-breathing gasoline-air pulse detonation engine ( PDE ), the pressure peaks of detonation wave were measured using pressure sensor .

  7. 脉冲爆震发动机(PDE,Pulsedetonationengine)是一种基于爆震燃烧的新概念推进系统,被广泛认为是21世纪最有发展意义的革命性航空航天动力装置之一。

    As a new concept propulsion system , pulse detonation engine which is based on detonation combustion is widely considered to be one of the most development meaning aeronautics and astronautics engines in the 21st Century .

  8. 针对两相无阀脉冲爆震发动机(PDE),研究了点火能量、工作频率、发动机直径、进气方式和燃料种类等对PDE点火-起爆性能的影响。

    The ignition-detonation performance of two-phase valveless pulse detonation engines ( PDEs ) with the inner diameters of50 mm and120 mm in different operation cases was investigated .

  9. 模拟脉冲爆震发动机(PDE)间歇式工作方式,研究了不同进气道型式在关闭和开放情况下的阻力特性。

    The resistance characteristics were investigated for various inlet types in opening or closing mode to simulate the periodic working of Pulse Detonation Engine ( PDE ) .

  10. 获得进气温度和燃油温度对气动阀式PDE爆震波特性影响,为深入研究以液态煤油为燃料,空气为氧化剂的气动阀式脉冲爆震发动机工作性能提供了依据。

    Effect of heated liquid kerosene and air on detonation properties was gained and the result is important to investigate deeply performance of kerosene / air aero-valve pulse detonation engine .

  11. 脉冲爆震发动机(PDE)是基于爆震燃烧产生推力的动力装置,具有很大的发展潜力和应用前景。

    Pulse detonation engine ( PDE ) is a new concept propulsion device based on the detonation combustion of a fuel / air mixture , which has great potential for development and application .

  12. 因为爆震室中燃料的分布和填充程度决定了脉冲爆震发动机(PDE)的性能,故试验中精心控制燃料填充程度,以研究爆震管中填充程度对脉冲爆震发动机性能的影响。

    Because fuel distribution in detonation chamber governs the performance of pulse detonation engine ( PDE ) , some controlled fueling experiments were designed to test the effect of partial tube fills on PDE performance .

  13. 本文在ZND爆震波理论基础上,结合脉冲爆震发动机工作原理,介绍了单次爆震火箭式脉冲爆震发动机推力,比冲性能参数的计算方法。

    Based on the theory of ZND detonation wave , the operating process of the pulse detonation engine ( PDRE ) is introduced .

  14. 研究了不同部分充填比例对煤油/空气气动阀式脉冲爆震发动机(PDE)的爆震波压力特性影响,初步分析了部分充填的爆震管内一系列波相互作用的机理。

    Effects of partial detonable mixture filling proportion on detonation wave pressure properties of kerosene / air pneumatic-valve pulse detonation engine were investigated . A preliminary analysis of a series of wave 's reciprocity was carried out .

  15. 与目前和不久的将来的推进系统相比,脉冲爆震发动机(PDE)具有明显的性能优势,并且有可能降低飞行器制造和执行任务的成本,因此在近年备受关注。

    Compared to current and coming jet engines , pulse detonation engine ( PDE ) has obvious performance superiority and is likely to result in reduced aircraft manufacture and operation costs , so it attracts wide attentions in recent years .

  16. 分别在内径为30mm和50mm的脉冲爆震发动机模型上,以煤油为燃料,以空气为氧化剂,成功地进行了两相爆震试验。

    Using kerosene as fuel and air as oxidizer , two-phase detonation experiments were successfully conducted in two pulse detonation engine models with the diameters of 30 mm and 50 mm respectively .

  17. 提出了弹簧-质量-阻尼系统法,设计了基于该方法的推力测试台架系统,应用该方法对一50mm内径脉冲爆震发动机的推力进行了测量,得到了合理的结果。

    A testing stand based on the method is built up . Using the system , the thrust of a model pulse detonation engine with 50 mm inner diameter is measured , and the result is reliable .

  18. 部分填充对脉冲爆震发动机冲量的影响

    Effects of partial filling on the impulse of pulse detonation engine

  19. 脉冲爆震发动机引射模态数值模拟和验证

    Numerical Simulation and Validation of Pulse Detonation Engine on Ejector Mode

  20. 气动阀式脉冲爆震发动机部分充填机理研究

    Investigation on Pneumatic-Valve Pulse Detonation Engine with Partial Detonable Mixture Filling

  21. 煤油气动阀式脉冲爆震发动机爆震波压力特性试验

    Detonation pressure properties of kerosene aero - valve pulse detonation engine

  22. 煤油/空气吸气式脉冲爆震发动机试验研究

    Experimental investigation on a kerosene / air air-breathing pulse detonation engine

  23. 障碍物对脉冲爆震发动机性能影响的数值模拟

    Numerical Simulation of Effect of Obstacles on Pulse Detonation Engine Performances

  24. 点火能量对脉冲爆震发动机性能的影响

    Experiment on the effect of ignition energy in pulse detonation engine

  25. 两相脉冲爆震发动机的燃油喷射、混合及其雾化研究

    Injection , Mixing and Atomization Effects on Two-phase Pulse Detonation Engines

  26. 模型两相脉冲爆震发动机推力的测试与研究

    Measurement and Investigation on Thrust of Two-Phase Pulse Detonation Engine Model

  27. 提高脉冲爆震发动机工作频率的实验研究

    Experimental Study on Increasing the Operation Frequency of Pulse Detonation Engine

  28. 脉冲爆震发动机喷管流动的数值模拟

    A numerical simulation on the nozzle flow of pulse detonation engine

  29. 脉冲爆震发动机引射器的实验研究

    Experimental Investigation of a Pulse Detonation Engine ( PDE ) Ejector

  30. 基于特征线的脉冲爆震发动机性能估算与结构参数设计

    Characteristic-Based Performance Calculation and Structural Parameters Design of Pulse Detonation Engine