用于空中试验的飞机最大续航能力水平飞行模型

IF 0.8 Q3 ENGINEERING, AEROSPACE Aviation Pub Date : 2022-05-30 DOI:10.3846/aviation.2022.16920
A. Goncharenko
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引用次数: 0

摘要

本文研究了飞机空试前的理论准备。一些水平飞行的数学模型是基于变质量运动的物质系统建立的。最优水平飞行速度是变质量的函数。该速度是飞行器水平飞行耐力目标函数的解(极值)。该解决方案为目标函数提供最大值。在问题设置中所做的主要有意义的假设是:飞机水平飞行速度变化率可忽略不计,飞行器发动机推力只有水平分量,气动系数之间的依赖关系用二次抛物线近似简化;模拟中使用的数据是抽象的,但似乎是合理的。结果表明,尽管在研究飞行过程中速度发生了变化,但这种变化的速率对所考虑的情况起着不重要的作用;因此,这种速率忽略的假设是有根据的。导出的方程式允许在重要的情况下考虑比率。由于本研究是一个简化的研究,所得结果可以作为一些可供检验和可能接近的参考值。
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MODELLING AN AIRCRAFT MAXIMUM ENDURANCE HORIZONTAL FLIGHT FOR AIR TRIALS
The paper considers theoretical preparation for the aircraft pre-air-trial. The construction of some mathematical models of a horizontal flight is based upon the material system of variable mass motion. Optimal speed of horizontal flight is obtained as a function of variable mass. This speed is a solution (extremal) of the objective functional of the flying apparatus horizontal flight endurance. The solution delivers maximal value to the objective functional. The main significant assumptions made at the problem setting are: the rate of the aircraft horizontal flight speed change is negligibly small, flying object engines thrust has the horizontal component only, the dependence between aerodynamic coefficients is simplified in approximation with a quadratic parabola; the data used in simulation are abstract, although plausible. It was shown that in spite of the speed changes during the studied flight, the rate of that change plays an unimportant role for the considered case; therefore, such supposition of the rate neglecting is properly grounded. The derived equations allow taking into account the rate when it is the matter of importance. Since the presented study is the simplified one, the obtained results could be considered as some reference values to be tested and possibly approached to.
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来源期刊
Aviation
Aviation ENGINEERING, AEROSPACE-
CiteScore
2.40
自引率
10.00%
发文量
20
审稿时长
15 weeks
期刊介绍: CONCERNING THE FOLLOWING FIELDS OF RESEARCH: ▪ Flight Physics ▪ Air Traffic Management ▪ Aerostructures ▪ Airports ▪ Propulsion ▪ Human Factors ▪ Aircraft Avionics, Systems and Equipment ▪ Air Transport Technologies and Development ▪ Flight Mechanics ▪ History of Aviation ▪ Integrated Design and Validation (method and tools) Besides, it publishes: short reports and notes, reviews, reports about conferences and workshops
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