知识经济对会计假设的挑战

分析了知识经济时代对旧有会计假设的挑战，会计假设应作出相应修正和补充，以适应新的环境。     

知识经济对财务会计报告的影响

财务会计报告的发展表现为财务会计报告三因素即报告方式、报告时间、报告内容的变化。文中分析了知识经济对财务会计报告三因素产生的深刻影响。     

高超声速飞行器流动特征分析

在非流线型构件或突起物的扰动效应、高马赫数和低雷诺数极限效应、低湍流度环境效应和由激波或摩擦导致的气动加热效应等4个方面的影响下,未来高超声速飞行器涉及的流动主要表现出这样的特点:典型流动结构强度高、尺度大,如强激波和厚边界层;局部流动结构数量多;激波、膨胀波和边界层结构之间相互干扰十分严重;转捩、压力脉动和一些流动结构对细微因素非常敏感;压力、摩擦应力和热流峰值现象普遍;升阻比屏障难以突破;流场同时依赖大量无量纲参数和有量纲参数,导致实验模拟难度大。本文在回顾传统高超声速流动主要流动现象的基础上,对上述7个方面涉及的典型流动现象的基础研究现状、问题本质和因果关系进行综合描述,讨论如何更有效地面对基础研究和工程实际问题。该文既可为解决典型流动现象中尚未解决的基础研究提供帮助,也可为如何合理地利用有限的已知知识解决工程应用问题提供指导。     

基于非线性气动力的飞机飞行载荷计算

为了研究气动力非线性对飞机静气动弹性特性及飞行载荷的影响,发展了一种基于非线性气动力的飞机静气弹及飞行载荷计算方法。通过引入CFD计算结果,实现对线性方法中的气动力影响系数矩阵的非线性修正,采用模态法求解静气弹配平方程得到飞机非线性的气弹变形及飞行载荷。以某翼身组合体构型为计算算例,分别针对刚性模型和柔性模型,基于非线性气动力完成了飞机静气动弹性分析及载荷计算,并与线性结果进行了对比分析。结果表明,非线性方法可对大迎角范围内飞机静气弹变形及飞行载荷做出较合理的预测。     

Effects of yaw-roll coupling ratio on the lateral-directional departure prediction and restraint

The experimental data obtained from yaw-roll coupled wind tunnel tests are used for lateral-directional departure prediction, by linearizing the_b model to extract nominal dynamic derivatives at each coupling ratio.The prediction results are compared with those of the existing engineering methods which are based on the conventional aerodynamic derivatives.The comparison shows that the yaw-roll coupling ratio has a great influence on the departure susceptibility.The departure resistance will loss in partial region of the coupling ratio when the angle of attack is higher than a critical value.According to the stable and unstable regions of coupling ratio, a two-segment stability augmentation system with two different feedback gain matrices is obtained by pole-placement method.The two-segment stability augmentation system is used in the simulations of straight and level flight, steady turn, spin recovery and Herbst maneuver.The simulation results are also compared with the applications of a fixed-gain stability augmentation system designed by the conventional aerodynamic derivatives.When the yaw-roll coupling effects are fully considered, the two-segment stability augmentation system is more effective for departure restraint and can provide a better flying quality with less control energy.     

飞机带外挂对称结构振型局部化的参数影响

本文在文〔１〕研究的基础上，详细分析了飞机左右对称子结构间的耦合度以及外挂联接刚度失调量的大小等因素对振型局部化程度的影响。通过具体的数据揭示了各参数对局部化程序的影响规律。     

Computational engineering analysis of external geometrical modifications on MQ-1 unmanned combat aerial vehicle

This paper focuses on the effects of external geometrical modifications on the aerodynamic characteristics of the MQ-1 predator Unmanned Combat Aerial Vehicle (UCAV) using computational fluid dynamics. The investigations are performed for 16 flight conditions at an altitude of 7.6 km and at a constant speed of 56.32 m/s. Two models are analysed, namely the baseline model and the model with external geometrical modifications installed on it. Both the models are investigated for various angles of attack from −4° to 16°, angles of bank from 0° to 6° and angles of yaw from 0° to 4°. Due to the unavailability of any experimental (wind tunnel or flight test) data for this UCAV in the literature, a thorough verification of calculations process is presented to demonstrate confidence level in the numerical simulations. The analysis quantifies the loss of lift and increase in drag for the modified version of the MQ-1 predator UCAV along with the identification of stall conditions. Local improvement (in drag) of up to 96% has been obtained by relocating external modifications, whereas global drag force reduction of roughly 0.5% is observed. The effects of external geometrical modifications on the control surfaces indicate the blanking phenomenon and reduction in forces on the control surfaces that can reduce the aerodynamic performance of the UCAV.     

Effects of yaw-roll coupling ratio on lateral-directional aerodynamic characteristics

Experimental investigation of large amplitude yaw-roll coupled oscillations was conducted in a low-speed wind tunnel using an aircraft configuration model. A special test rig was designed and constructed to provide different coupled motions from low to high angles of attack.A parameter ‘‘coupling ratio" was introduced to indicate the extent of yaw-roll coupling. At each pitch angle, seven coupling ratios were designed to study the yaw-roll coupling effects on the lateraldirectional aerodynamic characteristics systematically. At high angles of attack, the damping characteristics of yawing and rolling moments drastically varied with coupling ratios. In the coupled motions with the rotation taking place about the wind axis, the lateral-directional aerodynamic moments exhibited unsteady characteristics and were different from the ‘‘quasi-steady" results of the rotary balance tests. The calculated results of the traditional aerodynamic derivative method were also compared with the experimental data. At low and very high angles of attack, the aerodynamic derivative method was applicative. However, within a wide range of angles of attack, the calculated results of aerodynamic derivative method were inconsistent with the experimental data, due to the drastic changes of damping characteristics of lateral-directional aerodynamic moments with yaw-roll coupling ratios.     

Mechanism analysis of hysteretic aerodynamic characteristics on variable-sweep wings

Variable-sweep wings have large shape-changing capabilities and wide flight envelops, which are considered as one of the most promising directions for intelligent morphing UAVs. Aerodynamic investigations always focus on several static states in the varying sweep process, which ignore the unsteady aerodynamic characteristics. However, deviations to static aerodynamic forces are inevitably caused by dynamic sweep motion. In this work, first, unsteady aerodynamic characteristics on a typical variable-sweep UAV with large aspect ratio were analyzed. Then, deep mechanism of unsteady aerodynamic characteristics in the varying sweep process was studied. Finally, numerical simulation method integrated with structured moving overset grids was applied to solve the unsteady fluid of varying sweep process. The simulation results of a sweep forward-backward circle show a distinct dynamic hysteresis loop surrounding the static data for the aerodynamic forces. Compared with the static lift coefficients , at the same sweep angles, dynamic  lift coefficient in sweep forward process are all smaller, while dynamic sweep backward  lift coefficient are all larger. In addition, dynamic deviations to static  lift coefficient are positively related with the varying sweep speeds. Mechanism study on the unsteady aerodynamic characteristics indicates that three key factors lead to the dynamic hysteresis loop in varying sweep process. They are the effects of additional velocity caused by varying sweep motion, the effects of flow hysteresis and viscosity. The additional velocity induced by sweep motion affects the transversal flow direction along the wing and the effective angle of attack at the airfoil profile. The physical properties of flow, the hysteresis and viscosity affect the unsteady aerodynamic characteristics by flow separation and induced vortexes.     

亚格子模型对泵喷推进器宽带非定常力预测的影响研究

为了研究亚格子模型对泵喷推进器非定常流动与宽带非定常力预报结果的影响,采用分块结构化网格建立了模型尺度下艇后泵喷推进器的计算模型,并进行了大涡模拟数值计算。从艇尾非定常流场特征量和推进器转子脉动载荷两个方面对比了三种不同亚格子模型计算结果的差异,并分析了泵喷内部流动与转子非定常力间的内在联系。研究结果表明：三种亚格子模型均能得到含有叶频宽带峰的轴向推力谱,且整体趋势相近。泵喷转子上游的湍流强度和尺度的分布对亚格子模型较敏感,其中Smargrinsky-Lilly模型得到的湍流强度较强,尺度较大,该模型下的湍流谱在非平衡区量级较大,但由低频向高频的衰减较快,并且预测到的分离区范围大,导叶尾缘脱落涡分散,导致转子上游来流空间分布不均程度较强。对于转子叶片上的载荷脉动,Smargrinsky-Lilly模型预测的推力谱中线谱成分明显,并且叶频处宽带谱峰“陡峭”,而WALE模型和KET模型的结果宽带特性较强,对比非定常推力测试结果可知,WALE模型和KET模型更适于该问题宽带非定常力预测。