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用于推进的驻定斜爆轰的基本特征 总被引:3,自引:0,他引:3
基于驻定斜爆轰的基本守恒方程、多组元状态方程和考虑化学平衡移动的组元守恒方程,根据本文推导的迭代公式,计算了不同强度的驻定爆轰波后的平衡组分、反应热和绝热指数,讨论了驻定斜爆轰的基本特点、驻定条件和影响驻定的各种因素。 相似文献
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自持斜爆轰的特性和实验观察 总被引:3,自引:0,他引:3
本文指出了自持斜轰是最佳超声速燃烧模式,提出了自持斜爆轰形成后波角与波后物体形状无关的论点,并介绍了进行驻定斜爆轰实验观察的有关问题。 相似文献
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连续爆轰发动机的研究进展 总被引:3,自引:0,他引:3
连续爆轰发动机是一种基于爆轰波将推进剂的化学能转化成热能的新概念发动机,近年来受到世界各主要国家的高度关注。现已成功获得多种燃料长时间稳定的连续爆轰,较深入地认识了连续爆轰流场结构,初步测得推力和比冲,验证了连续爆轰发动机的性能优势并在火箭模态、冲压模态以及涡轮模态下都实现了稳定连续爆轰。对连续爆轰发动机的工作原理,以及近年来世界各主要国家在连续爆轰发动机的基础研究和应用研究方面取得的代表性成果进行了综述,并给出尚待解决的问题,为其进一步工程化应用提供参考。 相似文献
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为了改善吸气式脉冲爆轰发动机的爆轰效果,在发动机的点火室内引入了氧气,并开展了系列试验研究,研究结果表明,点火室内引入氧气,提高了吸气式PDE的爆轰波压力与传播速度,缩短了点火起爆的时间,增加了发动机的平均推力,简化了发动机内的强化燃烧装置。与纯空气状况相比,爆轰波压力最大增加了1.28倍、爆轰波传播速度与发动机平均推力的最大增幅分别为69.57%和62.84%,点火起爆时间则相应减少了36.47%。点火室引入的氧气量存在临界值,小于临界值时随着引入氧气量的提高,发动机爆轰效果的改善越显著;大于临界值时,发动机会形成连续燃烧。 相似文献
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为研究连续旋转爆轰发动机(CRDE)内外流场的变化特性,采用氢气-空气单步有限速率化学反应模型,对内径为40 mm、外径为60 mm、长度为50 mm的连续旋转爆轰发动机进行三维数值模拟,获得了CRDE内外流场结构特征和旋转爆轰波相关参数的变化特性,分析了不同进气总压条件对流场结构和发动机性能的影响。结果表明:爆轰产物在燃烧室出口附近膨胀加速,压力和温度大幅降低,在流场下游产生激波使压力回升,且随进气总压的升高,激波距燃烧室出口距离增加;出口附近羽流中心形成低压高温区域,中心平面上的平均压力低于环境压力,给发动机推力带来了副作用;羽流外围的空气受出口处斜激波的扰动,压力呈现出周期性变化;发动机推力随进气总压的升高而呈线性增加,进气总压为0.55MPa时,发动机推力达到了1160 N。计算仿真结果对掌握连续旋转爆轰发动机外流场特性具有一定的参考价值。 相似文献
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激波引燃冲压发动机是一种采用爆轰形式组织燃烧的吸气式高超声速飞行器动力系统。采用AUSMPW+迎风格式、氢氧7组分8步基于反应模型,在非结构网格离散域上求解二维多组分化学非平衡流Euler方程。采用发展的数值方法求解了激波引燃冲压发动机内外一体化流场,研究了台阶长度、斜劈尖角度对发动机流场结构和发动机性能参数的影响规律。计算结果表明,所发展的数值方法能用于激波引燃冲压发动机的一体化流场和性能预示计算;台阶长度和斜劈尖角度影响发动机流场结构和预混气体能量释放程度。推力和燃料比冲均随台阶长度的增大而增大,随斜劈尖角度的增大而减少。 相似文献
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采用带化学反应的一维多相流模型,运用CE/SE数值计算方法和处理源项的四阶龙格-库塔方法对爆轰管内汽油/纳米铝粉悬浮液滴、空气混合物的多相爆轰过程进行了数值模拟,讨论了悬浮液滴中纳米铝粉浓度对爆轰参数及燃烧转爆轰过程的影响。数值结果表明,添加纳米铝粉后,稳定传播的爆轰波速度变大;随着纳米铝粉浓度的增加,爆轰波压力峰值与... 相似文献
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为了解含铝凝胶燃料脉冲爆轰发动机工作过程的瞬态机理,建立了含铝凝胶燃料脉冲爆轰发动机数学物理模型。采用守恒元与求解元数值计算方法,对单循环含铝凝胶燃料脉冲爆轰发动机流场进行了数值仿真,分析了其爆轰反应过程与冲量产生过程的瞬态特征。计算结果表明,爆轰波作用下,凝胶燃料液滴变化以剥离破碎为主,燃料液滴中铝颗粒随液滴剥离弥散于爆轰管内并参与反应,累积在最后阶段反应的铝颗粒较少。凝胶燃料爆轰燃气排放过程可划分为爆轰附着膨胀、燃气"壅塞"膨胀和膨胀减弱等3个典型特征阶段。研究结果对凝胶燃料脉冲爆轰发动机的应用研究具有参考意义。 相似文献
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为提高火箭基冲压组合循环(RBCC)发动机火箭冲压模态下火箭推力增益,基于模拟飞行Ma=4来流条件的数值计算结果,分析了火箭射流与冲压主流超/超剪切流动的特性,探讨了火箭推力增益的组成,并给出了提高火箭推力增益的措施:1)冲压流道、火箭工作参数的选取必须确保两股超声速剪切流之间的流动匹配,在有限空间内快速、低损的实现高能火箭射流与低能冲压主流间的动量及质量输运,最大限度地提高发动机喷管排气速度及压力;2)采用高室压火箭,通过增加推力室室压,提高火箭燃气膨胀程度,减小火箭推力增益损失。 相似文献
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爆震波点火器用于工程,其设计存在一个最佳结合点,使得在合适的管路中,爆震波传播速度、转捩距离、爆震波能量等能够符合点火器目标需求。为了研制适用于工程的爆震波点火器,在氢氧爆震波点火器基本特性试验的基础上,对初始混合气体的混合比等与爆震波特性的关系进行了研究。对实验结果进行分析认为。混合比对爆燃爆震转捩(DDT)距离影响较大,混合比大于3时,其转捩距离小于500mm。混合比增加时,爆震波传播速度会减小,但稳定的爆震波相对于波的混气的马赫数并小减小,维持在4.8左右。在初始混气压力不变情况下,质量流量可以提高爆震波能量,增强爆震波的点火能力。研究结论时爆震波点火器在工程中实际应用及以后的研究方向具有指导性作出。 相似文献
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This paper describes the experimental and computational analyses of a high velocity aluminum projectile impact on an Al6061-T6 spacecraft inner wall at different oblique angles. Al2017-T4 spherical projectiles of 5.56 mm in diameter and 0.25 g in weight were chosen within the velocity range of 1000±200 m/s due to the limitation of the light gas gun. The energy absorbed was calculated by measuring the velocities before and after impact on the inner wall. The energy absorbed by the wall and the remaining energy carried by the projectile helped to estimate the severity of further damage to inner components. Afterwards, validation was done by using the commercially available software LS-DYNA with a dedicated SPH. On average, a 10% energy absorption difference between experimentation and simulation was found. By using C-SCAN, the damage area proportion of the total inner wall to impact penetration hole area was found to be on average 6%, 26% and 53% greater than the projectile cross sectional area for the oblique angle impacts of 30°, 45°, and 60°, respectively. These findings helped to understand the relationship between the oblique impact event and the damage area on a spacecraft inner wall along with space debris cloud propagation and comparison with experimental results using LS-DYNA. 相似文献
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F. Winterberg 《Acta Astronautica》1985,12(3):155-161
A novel propulsion concept is proposed which has the potential of accelerating large masses to velocities substantially higher than what is possible with chemical rockets. The novel concept is an electromagnetic gun, where the projectile is a rocket. The proposed concept solves the old problem of magnetic propulsion, which is the resistive dissipation of the induced electric currents into heat which will vaporize the projectile long before it can reach a high velocity. As in a rocket, where the propellant cools and thereby prevents the rocket from burning up, the same happens in the proposed concept where the propellent also cools the projectile and prevents its vaporization. The propellant, however, not only cools the projectile but in addition is resistively heated by the magnetic field and ejected from the projectile with high velocity. The resulting recoil produces an additional thrust which is approximately as large as the thrust exerted by the magnetic field alone. The energy to drive the jet is externally supplied, making the specific impulse much larger than for chemical rockets. 相似文献
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This paper briefly describes two attempts to utilize detonative combustion processes to MHD conversion of thermal energy of fuel to electrical energy and bonding of atmospheric nitrogen. For this purpose a continuous impulse detonation chamber with a frequency up to 200 cps was constructed. Using methane-oxygen-nitrogen mixtures the chamber was maintained in stable operation for several hundred hours. Oil was also employed as fuel.Estimates based on experimental data showed that up to 2% of chemical energy of the fuel may be converted into electrical energy. The use of an accelerating nozzle may improve this result.The concentration of nitrogen oxide in combustion products of the detonation wave was higher by 14% than that expected under usual combustion conditions.The advantages of this type of apparatus are: absence of compressors for fuel and oxidant, impulse current generation, low temperatures of chamber walls, and operation over a large range of operating conditions.Problems associated with the effect of the magnetic field on the propagation of the detonation wave are discussed and the possibility of applying the Zeldovich theory to the case of MHD interaction is described. It is shown that the detonation velocity may either increase or decrease depending on the relative orientation of the direction of magnetic field with respect to the detonation wave. 相似文献
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Spherical detonations have been initiated by solid explosive (Tetryl) charges in well-mixed stoicheiometric air mixtures with each of the hydrocarbons, ethane, propane, n-butane, isobutane and ethylene at atmospheric pressure. Prior to initiation, the gases were contained in plastic bags; total gas volume and available path length were up to 1.6 m3 and 2 m, respectively. The detonations were shown to be self-sustained by continuous measurement of detonation velocity using X-band microwave interferometry. Measured detonation velocities were in all cases close to calculated C-J values.In a few experiments close to the limits of detonability, velocity and blast pressure/time records indicated that the propagating wave system is sometimes irregular. The irregularity that occurs just after initiation is characterised by a reaction front velocity very much lower than the constant detonation velocity, but subsequently attaining the latter by an acceleration process. These observations indicate the existence of a dissociated phase in which shock and reaction fronts may no longer be coupled.Because similar experimental conditions were used throughout, it was possible to establish the relative susceptibilities of the various fuel gases to detonation. Comparison is made with the Zeldovich criterion and a detonation kernel theory of Lee. 相似文献
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Al/Mg阻抗梯度材料超高速撞击机理数值仿真研究 总被引:2,自引:1,他引:1
文章采用数值仿真方法研究了Al/Mg阻抗梯度材料在超高速撞击下的响应过程,分析了冲击波在阻抗梯度材料中的传播规律,计算了撞击过程中的能量耗散情况,并与弹丸撞击铝合金靶的结果进行了比较。研究结果表明,相对于铝合金材料,Al/Mg阻抗梯度材料:1)延长了冲击波的传播时间,使峰值压力脉冲的比冲量提升了30%~50%;2)提高了塑性功和内能转化量,使不可逆功增加了10%。由此证明阻抗梯度材料的防护性能优于铝合金。 相似文献
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对铝合金平板上形成的超高速撞击(HVI)声发射(AE)信号S2模态的特征进行研究,分析其与损伤模式之间的关系。以3 mm厚5A06铝合金平板为研究对象,通过数值仿真获得不同撞击工况下的超高速撞击声发射信号,提取信号中的S2模态,并分析其幅值、能量、频谱等特征。结果表明,S2模态能量随传播距离呈指数衰减;分别随撞击弹丸直径和撞击速度的增加先下降后上升,且在弹丸直径与靶板厚度相近、临界撞击速度时最低。S2模态的中心频率随弹丸直径的增加而降低;随撞击速度的增加而增加;随传播距离的增加向1500 kHz移动。S2模态小波包系数呈凹性的频域范围分别随撞击速度和弹丸直径的增大变窄。在此基础上,当靶板形成穿孔损伤时,可根据S2模态的中心频率推测弹丸的直径;在传播距离和弹丸直径已知的前提下,可根据S2模态小波包系数呈凹性的频域范围推测撞击速度。 相似文献
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Cylindrical heterogeneous detonation waves 总被引:1,自引:0,他引:1
Further experimental studies of blast wave initiated cylindrical heterogeneous (liquid fuel drops, gas oxidizer) detonation waves are described. A pie-shaped shock tube, used for these studies, was altered in certain ways so as to improve the modeling of cylindrical waves. These modifications, along with some operational aspects, are briefly discussed. The breech of the facility, where the blast wave is generated by an explosive, became distorted with usage. Results are presented which show that lower detonation velocities are realized with the damaged breech (other conditions being the same). A photographic and pressure switch wave time of arrival study was made to ascertain the wave shape. Photographs are shown which show that the waves, blast as well as detonation, are close to cylindrical. However, in some cases there is appreciable distortion of the wave front by debris ahead of the wave. Presumably this debris comes from the blasting cap used to ignite the condensed explosive. A series of experiments was conducted using kerosene drops of 388 μm diameter dispersed in air through use of a large number of hypodermic needles. Radial fuel void regions were established by cutting off the fuel flow to a number of needles. Preliminary results relating to the effect of the size of the cloud gap on detonation velocity, quenching, and the initiator energy levels required for detonation are discussed. 相似文献