«Previous Article|Table of Contents|Next Article»

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]

Issue:

2021年06期

Page:

11-20

Research Field:

专刊

Publishing date:

Info

Title:

Analysis and thinking on technical approach of Sanger aerospace vehicle

Author(s):

SHE Wenxue¹; 2; LIU Xiaopeng¹; LIU Kai²

(1.Beijing Institute of Aerospace Technology,Beijing 100074,China 2.Dalian University of Technology,Dalian 116024,China)

Keywords:

Sanger aerospace vehicle hypersonic combined power technology prospect

PACS:

V475.3

DOI:

-

Abstract:

The research situation of German Sanger two-stage-to-orbit aerospace vehicle is reviewed. The difficulties and key issues in conceptual design,propulsion system,aerodynamic layout and structural thermal protection design are analyzed,and the feasibility of relevant technical approaches is discussed in detail. Based on the experience and lessons of Sanger aerospace vehicle scheme,this paper analyzes the key technology issues in the research of aerospace vehicle,and proposes the development route and implementation suggestions of aerospace vehicle in the future,so as to provide reference direction for the follow-up development of aerospace vehicle.

References:

[1] 包为民,汪小卫,董晓琳. 航班化航天运输系统对动力的发展需求与技术挑战[J].火箭推进,2021,47(4):1-5.
BAO W M,WANG X W,DONG X L. Development demands and challenges of propulsion technology for space transportation system in airline-flight-mode[J].Journal of Rocket Propulsion,2021,47(4):1-5.
[2] 本特利. 空天飞行器:从飞机场到航天港[M].张红文,关成启,佘文学,译.北京:北京理工大学出版社,2015.
[3] SACHER H K P W.可重复使用空间运输系统[M].魏毅寅,张红文,王长青,译.北京:国防工业出版社,2015.
[4] 王长青. 空天飞行技术创新与发展展望[J].宇航学报,2021,42(7):807-819.
[5] DENEU F,MALASSIGNE M,LE-COULS O,et al.Promising solutions for fully reusable two-stage-to-orbit configurations[J].Acta Astronautica,2005,56(8):729-736.
[6] FUJII K,ISHIMOTO S. Research activities to realize advanced space transportation system[C]//16th AIAA/DLR/DGLR International Space Planes and Hypersonic Systems and Technologies Conference. Reston,Virginia:AIAA,2009.
[7] EKLUND D. Quicksat:a two stage to orbit reusable launch vehicle utilizing air breathing propulsion for responsive space access[C]//Space 2004 Conference and Exhibit. Reston,Virginia:AIAA,2004.
[8] MINAMI Y,ISHIMOTO S,MORI T,et al.Design study on a small-sized partially reusable launch system[C]//AIAA/CIRA 13th International Space Planes and Hypersonics Systems and Technologies Conference. Reston,Virginia:AIAA,2005.
[9] 佘文学,刘凯,乔鸿. 组合动力空天飞行器制导技术发展分析[J].战术导弹技术,2020(5):52-65.
[10] 唐硕,龚春林,陈兵. 组合动力空天飞行器关键技术[J].宇航学报,2019,40(10):1103-1114.
[11] HOGENAUER E,KOELLE D E. SANGER:the German aerospace vehicle program[C]//AlAA First National Aerospace Planes Conference. Reston,Virginia:AIAA,1989.
[12] AFANASEV V A,DEGTYAREV G L,MESHCHANOV A S. Reusable space transportation system[J].Russian Aeronautics,2018,61(3):325-330.
[13] DIETER J,SIEGFRIED W. Basic research on TSTO[Z].2001.
[14] SACHER P. The engineering design of engine/airframe integration for the SANGER fully reusable space transportation system [EB/OL].https://xueshu.baidu.com/usercenter/paper/show?paperid=3b9a669a48e950ea179 a59456ed682f7,2010.
[15] KOELLE D. Advanced two-stage launch vehicle concepts(Saenger)[C]//26th Joint Propulsion Conference. Reston,Virginia:AIAA,1990.
[16] KUCZERA H,SACHER P,KRAMMER P. SANGER and the German hypersonics technology programme,status[R].IAF-91-198.
[17] 金捷,陈敏,刘玉英. 涡轮基组合循环发动机[M].北京:国防工业出版社,2019.
[18] WEINGERTNER S. SAENGER:the reference concept of the German hypersonics technology program[C]//5th International Aerospace Planes and Hypersonics Technologies Conference. Reston,Virigina:AIAA,1993.
[19] KUCZERA H,HELMUT H. The German hypersonics technology programme[C]//AlAA 4th International Aerospace Planes Conference. Reston,Virginia:AIAA,1992.
[20] TROLLHEDEN S,STREIFINGER H. Secondary power system study for the SAENGER first stage vehicle[C]//5th International Aerospace Planes and Hypersonics Technologies Conference. Reston,Virigina:AIAA,1993.

Memo

Memo:

-

Common functions

Last Update: 1900-01-01