Rocket-Based Combined-Cycle (RBCC) Powered Spaceliner Class Vehicles Can Advantageously Employ Vertical Takeoff and Landing (VTOL)

机译：基于火箭的联合循环（RBCC）动力的班轮级飞行器可以有利地采用垂直起降（VTOL）

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

The subject is next generation orbital space transportation, taken to be fully reusable non-staged "aircraft like" systems targeted for routine, affordable access to space. Specifically, the takeoff and landing approach to be selected for such systems is considered, mainly from a propulsion viewpoint. Conventional wisdom has it that any transatmospheric-class vehicle which uses high-speed airbreathing propulsion modes (e.g., scramjet) intrinsically must utilize horizontal takeoff and landing, HTOHL. Although this may be true for all-airbreathing propulsion (i.e., no rocket content as in turboramjet propulsion), that emerging class of powerplant which integrally combines airbreathing and rocket propulsion, referred to as rocket-based combined-cycle (RBCC) propulsion, is considerably more flexible with respect to selecting takeoff/landing modes. In fact, it is proposed that any of the modes of interest may potentially be selected: HTOHL, VTOHL, VTOVL.

机译：主题是下一代轨道太空运输，它是完全可重复使用的，无阶段的“飞机状”系统，旨在以常规，可负担的方式进入太空。具体地，主要从推进的角度考虑要针对这种系统选择的起飞和着陆方法。传统观点认为，任何使用高速呼吸推进模式（例如超燃冲压发动机）的跨大气级车辆本质上都必须使用水平起飞和降落HTOHL。尽管这对于全呼吸推进器（即没有涡轮增压喷气推进器中的火箭弹）来说是正确的，但这种新兴的将空气呼吸和火箭推进结合在一起的动力装置被称为“基于火箭的联合循环（RBCC）推进器”。在选择起飞/着陆模式方面要灵活得多。实际上，建议可以潜在地选择任何感兴趣的模式：HTOHL，VTOHL，VTOVL。

著录项

来源
《AIAA Sixth International Aerospace Planes and Hypersonics Technologies Conference 3-7 April 1995 / Chattanooga, TN》|1995年|p.1-25 A-0-4 ^b29|共1页
会议地点
作者
William J.D.Escher;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类航天（宇宙航行）;
关键词

相似文献

外文文献
中文文献
专利

1. Design and dynamic analysis of landing gear system in vertical takeoff and vertical landing reusable launch vehicle [J] . Zhang Ming, Xu Dafu, Yue Shuai, Proceedings of the Institution of Mechanical Engineers . 2019,第10期

机译：垂直起飞和垂直着陆可重复使用运载火箭起落架系统的设计和动力学分析
2. Design and dynamic analysis of landing gear system in vertical takeoff and vertical landing reusable launch vehicle [J] . Zhang Ming, Xu Dafu, Yue Shuai, Proceedings of the Institution of Mechanical Engineers . 2019,第10期

机译：垂直起飞和垂直着陆可重复使用发动车辆着陆齿轮系统的设计与动态分析
3. Numerical Investigation of Cowl Lip Adjustments for a Rocket-Based Combined-Cycle Inlet in Takeoff Regime [J] . Shi Lei, Liu Xiaowei, He Guoqiang, International Journal of Turbo and Jet Engines . 2016,第3期

机译：起飞状态下基于火箭的联合循环进气口旋风面唇形调整的数值研究
4. Route Design for the Integration of Vertical Takeoff and Landing (VTOL) Vehicles in Non-Segregated Airspace [C] . Rocio Frej Vitalle, Bruce Normann, Ni Shen, AIAA aviation forum . 2020

机译：在非隔离空域中垂直起飞和着陆（VTOL）车辆集成的路线设计
5. Optimisation de trajectoires et de manoeuvres appliquee a un VTOL-UAV (vertical take-off and landing unmanned air vehicle). [D] . Giroux, Richard. 1999

机译：优化应用于VTOL-UAV（垂直起降无人飞行器）的轨迹和机动。
6. Control System for Vertical Take-Off and Landing Vehicle’s Adaptive Landing Based on Multi-Sensor Data Fusion [O] . Hongyan Tang, Dan Zhang, Zhongxue Gan 2020

机译：基于多传感器数据融合的垂直起飞和着陆车辆自适应降落控制系统
7. Options for flight testing rocket-based combined-cycle (RBCC) engines [O] . Olds, John 1996

机译：基于火箭的联合循环（RBCC）发动机的飞行测试选件
8. Tipjet VTOL UAV (Vertical Takeoff and Landing/Unmanned Aerial Vehicle) Summary. Volume 1. 1200-Pound Tipjet VTOL Unmanned Aerial Vehicle. Part 1. Conceptual Design Study of a 1200-Pound Vehicle [R] . Reader, K. R., Abramson, J. S., Schwartz, A. W., 1989

机译：Tipjet VTOL无人机（垂直起飞和着陆/无人驾驶飞行器）摘要。第1卷1200磅Tipjet VTOL无人机。第1部分：1200磅重的车辆的概念设计研究

Rocket-Based Combined-Cycle (RBCC) Powered Spaceliner Class Vehicles Can Advantageously Employ Vertical Takeoff and Landing (VTOL)

摘要

著录项

相似文献

相关主题

期刊订阅