评估小型研究火箭K80 Meteo 7000在创建乌克兰亚轨道运载火箭家族的过程中的飞行试验结果

Q3 Engineering
Vladyslav Proroka, Mykola Dron, Oleksii Kulyk, Vadym Solntsev, Svitlana Klymenko
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引用次数: 0

摘要

本文的研究对象是乌克兰亚轨道运载火箭(solv)发展战略的选择过程。分析了在此过程中出现的问题,并探讨了解决问题的途径。开发一系列solv的战略是基于以往在其他国家开发solv的经验。提出了一个solv系列,其中包括5枚远地点为2至150公里的火箭。考虑了在发射过程中,为抛弃物保留的禁区问题。分析了其他国家克服这一问题的经验。决定开始制定简化solv控制系统概念的过程,以确保火箭保持在发射区域上空。在此任务中,对机载电子设备(OBEE)的组件进行了选择。为了在实际飞行条件下测试obe,选择了SOLV家族成员K80 Meteo 7000火箭。在飞行测试中,大多数选择的obe组件证实了它们的可操作性,尽管有些在操作中显示出缺点。演示了K80 Meteo 7000火箭的主要飞行参数。经证实,该卫星到达了6375米的远地点,速度为1.733马赫。本研究为实际实施solv在远地点相当高度的发射设定了前提条件,同时限制了为火箭坠落部分保留的区域。这种solv的提供将能够解决许多科学研究领域的广泛问题,并利用solv作为为火箭的其他分支制定新的技术解决办法的平台
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the results of the flight tests of the small research rocket K80 Meteo 7000 on the way to the creation of the Ukrainian family of suborbital launch vechicles
The object of this research is the process of choice the strategy for the development of the Ukrainian segment of suborbital launch vehicles (SOLVs). Problems arising in this process are analyzed and a search of ways of overcoming them was carried out. The strategy of development of a family of SOLVs is based on the previous experience of developing SOLVs in other countries. A family of SOLVs is proposed which includes five rockets with the apogee from 2 to 150 kilometers. The problem of the exclusion zones which can be reserved for falling of discarded parts of vehicles during the launch was considered. Experience of other countries in overcoming this problem was analyzed. It was decided to begin the process of formulation of a concept of a simplified SOLVs control system that would ensure keeping the rocket over the area of the launch. Within this task, a choice of components of the onboard electronic equipment (OBEE) was made. For testing the OBEE in the conditions of a real flight, a K80 Meteo 7000 rocket, a member of the proposed SOLV family, was chosen. In flight tests, most of the chosen OBEE components confirmed their operability, though some showed shortcomings in their operation. Main flight parameters of the K80 Meteo 7000 rocket were demonstrated. The reach of the apogee of 6,375 m and the velocity of Mach 1.733 was confirmed. This research sets preconditions for practical implementation of launches of SOLVs with substantial altitudes of the apogee, while limiting the areas reserved for falling parts of the rockets. Availability of such SOLVs will enable solution of a wide range of problems in many fields of scientific research and the use of SOLVs as platforms for working out new technical solutions for other branches of rocketry
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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