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翼身融合运输机分布式电推进系统设计及油耗评估 总被引:3,自引:1,他引:2
针对翼身融合运输机开展了分布式电推进系统的总体设计与油耗评估。通过数值计算完成了70t载质量翼身融合飞机的气动设计与优化。在巡航马赫数为0.80和10km高度的设计点,最大升阻比达到了24。通过求解积分边界层方程组,完成了电推进系统的总体设计。电推进系统包含10个推进风扇,风扇直径为1.45m,压比为1.35,巡航功率为2.94MW。建立了考虑燃烧过程的发动机一维性能模型,对发动机油耗进行了评估,获得了不同发动机循环参数下燃油消耗。建模结果表明,基于翼身融合布局和分布式电推进技术,可使运输机的油耗较C-17节省近50%。 相似文献
3.
为提高换热强度、解决设备内部高热流密度散热问题,采用实验方法研究R141b在不同直径(D=0.5mm和1.0mm)水平圆形微通道内的沸腾换热特性,分析了热流密度(q=2.0kW/m~2~47.6kW/m~2)、质量干度(x=0~0.6)、质量流速(G=111.11kg/(m~2·s)~333.33kg/(m~2·s))的变化对平均传热系数h的影响,探究不同情况下影响沸腾换热的主导因素。实验研究表明:平均传热系数h随热流密度q的增加而减小,在不同范围内减小速率有明显差异;热流密度q=2kW/m~2~5kW/m~2时质量流速G对平均传热系数h影响较明显,热流密度较高时质量流速G对换热影响很小;在质量流速G=111.11kg/(m~2·s)~333.33kg/(m~2·s),质量干度x0.3时,平均传热系数h随质量干度x增加而明显下降,在设计微通道换热器时应尽量使R141b处于初始沸腾阶段以获得更好换热效果,并采取一定措施预防干度过高引起的换热恶化。 相似文献
4.
应用理论分析与数值模拟方法,将对流传热的场协同原理从不可压缩流动推广至高超声速化学非平衡流动中。结果表明,高超声速化学非平衡层流与湍流的热流密度取决于流动的当地单位体积的动量与单位质量总焓梯度的协同。用当地单位体积的动量与单位质量总焓梯度的协同研究高超声速化学非平衡流动的壁面传热问题,对层流流动下的对流传热,不但计及了高超声速化学非平衡流的密度变化对热流密度的影响,而且包括了静焓梯度、压力梯度、边界层内的分子黏性剪切效应对热流密度的作用;对湍流问题,除了上述层流流动各项对热流密度的影响外,还计及了雷诺剪切应力对热流密度的作用。考虑到高超声速化学非平衡流静焓的定义,高超声速化学非平衡层流及湍流的场协同同时计及所有组分的平动能、转动能、振动能及电子能等梯度的贡献。 相似文献
5.
Vladimir N. Gubenko A.G. Pavelyev I.A. Kirillovich Y.-A. Liou 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2018,61(7):1702-1716
We have used the radio occultation (RO) satellite data CHAMP/GPS (Challenging Minisatellite Payload/Global Positioning System) for studying the ionosphere of the Earth. A method for deriving the parameters of ionospheric structures is based upon an analysis of the RO signal variations in the phase path and intensity. This method allows one to estimate the spatial displacement of a plasma layer with respect to the ray perigee, and to determine the layer inclination and height correction values. In this paper, we focus on the case study of inclined sporadic E (Es) layers in the high-latitude ionosphere based on available CHAMP RO data. Assuming that the internal gravity waves (IGWs) with the phase-fronts parallel to the ionization layer surfaces are responsible for the tilt angles of sporadic plasma layers, we have developed a new technique for determining the parameters of IGWs linked with the inclined Es structures. A small-scale internal wave may be modulating initially horizontal Es layer in height and causing a direction of the plasma density gradient to be rotated and aligned with that of the wave propagation vector k. The results of determination of the intrinsic wave frequency and period, vertical and horizontal wavelengths, intrinsic vertical and horizontal phase speeds, and other characteristics of IGWs under study are presented and discussed. 相似文献
6.
《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2020,65(7):1789-1802
Urban heat island (UHI) is emerged as a ubiquitous phenomenon that affects the outdoor thermal comfort. Hence urban microclimatic studies using numeric simulation software to find out adaption strategies are attracting the great attention of researchers and policymaker. Number of scientists carried out their research on this topic using different tools and technique whereas ENVI-met model is the most widely used simulation tools. The present study intended to examine the implication of green infrastructure of the town on enhanced microclimatic condition and to evaluate the best suitable mitigation strategy modelling cool city with ENVI-met software (V4). Five greening condition such as existing UHI condition (C1), 100% greening of roof (C2), 100% greening of roof and walls (C3), 50% greening of roof and walls (C4) and: Plantation at suitable area with 50% greening of roof and walls (C5) have been taken into consideration for the microclimate simulation for all three selected sites. Among these five conditions, C3 for the open mid-rise and compact low-rise, C5 for the open low-rise are identified as one of the most suitable strategies which can reduce the air temperature of peak hours by 2.6 °C, 1.33 °C and 1.87 °C respectively. These models are validated by simple linear regression between simulated and existing air temperature in case of existing UHI condition (C1) and in all the cases coefficient of determination value is high such as for open mid-rise, compact low-rise and open low-rise, it is 0.92, 0.92 and 0.75 respectively. Therefore it can be concluded that the application of those strategies can improve the urban thermal environment as well as the outdoor thermal comfort of English bazaar Town and its surroundings. 相似文献
7.
本文提出了一种基于虚拟页地址映射的NAND Flash管理算法.该算法通过定义坏块表、对应表等结构,以及设计的坏块替换策略和虚拟页地址到实际物理页地址的转换算法,实现上层软件采用虚拟地址对NAND Flash的无坏块连续页地址访问.该算法是一种高效的地址映射算法,能高效地对数据进行索引,占用SRAM空间较少,使系统达到高性能,并使得闪存使用的更加稳定持久. 相似文献
8.
为了摸清亚超大梯度剪切混合层内直射式喷嘴的燃油雾化特性,设计了用于向亚超剪切混合流中进行燃油喷射的直射式喷嘴,建立了亚超剪切混合层中燃油雾化试验系统。利用粒子图像测速系统(PIV),对亚超大梯度混合层中油雾场进行测量。通过改变喷嘴流量、喷射角度和喷嘴数量研究不同参数对雾化特性的影响,并应用图像处理技术对亚超大梯度剪切混合层内的油雾场进行分析,总结归纳其雾化规律。试验结果显示:随着流量增大,穿透深度会随之增大,破碎后的颗粒分布峰值所对应的液滴直径会逐渐变小,雾化效果提升;相同流量条件下,喷嘴的角度改变对雾化效果有影响,顺喷和逆喷的雾化效果均好于垂直喷射;逆喷的喷射高度最高,随着流量的增长,燃料将会碰壁;顺喷条件下,随着角度的增加,穿透长度会有所增加;综合燃油轨迹边界,逆喷的效果相对较好。相同流量条件下,喷孔个数的改变对雾化效果和穿透深度的影响不大。 相似文献
9.
A theoretical methodology for thermochemical non-equilibrium flow combing with the HLLC (Harten-Lax-van Leer Contact) scheme was applied to study the hypersonic thermochemical non-equilibrium environment of an entry configuration in ionized flow. A two-temperature controlling model was utilized and the Gupta’s 11 species (N2, O2, NO, O, N, NO+, N2+, O2+, N+, O+, e?) thermochemical non-equilibrium model was taken. Firstly, numerical calculations of hypersonic thermochemical non-equilibrium environments for different aerodynamic shapes were carried out to verify the reliability of the method above. Then, the method was used to research the effects of ionization and wall catalysis on the hypersonic thermochemical non-equilibrium environment of the entry configuration in ionized flow. The shock stand-off distance can be reduced by thermochemical reactions but doesn’t continue to decrease significantly when ionization occurs. The shock stand-off distance calculated by the 11 species model is 4.2% smaller than that calculated by the 5 species (N2, O2, NO, O, N) thermochemical non-equilibrium model without considering ionization. Ionization reduces wall heat flux but increases wall pressure a little. The effect of ionization on aerothermal loads is greater than that of aerodynamic loads. The thermochemical reactions of electrons and ions catalyzed at the wall increase wall heat flux significantly but make a small change in wall pressure. The maximum wall heat flux obtained by only considering the electrons and ions catalyzed at the partially catalytic wall condition is 11.8% less than that calculated at the super-catalytic wall condition. 相似文献
10.
The technology development related to aerodynamics is leading to ever increasing loads of wings, airfoils and turbine and compressor blades. The increase in aerodynamic forces is often leading to flow separation and depreciation of the aerodynamic performance of flying objects or propulsion systems. Flow control methods are required to avoid these negative effects. In the recent two decades the flow control by means of air-jet vortex generators has been also intensively investigated. In this method a streamwise vortex is introduced by an oblique jet. The necessity to supply air by a pipe system may be considered a disadvantage. In order to eliminate this feature, it has been proposed to put out a rod instead of a jet. It has been shown that the application of a rod can introduce the same effect as a jet, as long as the streamwise vortex generation is concerned and appropriate dimensions are used. The present paper focuses on the influence of rod vortex generators on a flow pattern downstream. The results presented here concern experimental and numerical investigations and provide guidelines for the design of a new flow control method dedicated mainly to external flows. 相似文献