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

Issue:

2023年05期

Page:

32-38

Research Field:

目次

Publishing date:

Info

Title:

Analysis on transportation capacity of DRBCC-powered two-stage-to-orbit launch vehicle

Author(s):

ZHANG Fan¹;  ZHANG Huiqiang²

(1.China Academy of Launch Vehicle Technology, Beijing 100076, China; 2. School of Aerospace Engineering,Tsinghua University, Beijing 100084, China)

Keywords:

DRBCC propulsion system;  propulsion performance;  transportation capacity;  two-stage-to-orbit

PACS:

V412

DOI:

-

Abstract:

In order to provide a suggestion for developing rocket-based-combined-cycle(RBCC)system, as well as researching the influence of propulsion performance on payload, the transportation capacity of dual-rocket-based-combined-cycle(DRBCC)powered two-stage-to-orbit(TSTO)launch vehicle was studied. The configuration of the TSTO launch vehicle was designed, and the flight profile was given. Then the TSTO transportation capacity to low-earth-orbit at 180 km was calculated. Results show the 150 t-weight TSTO launch vehicle can achieve payload of 4.773 t for equatorial mission to low-earth-orbit at 180 km with a DRBCC-powered first stage and a rocket engine powered second stage. The propulsion performance of DRBCC is tightly coupled to flight states of the launch vehicle. DRBCC works in hybrid mode under 2.5 Ma and then directly turns into ramjet mode. In ramjet and scramjet mode, specific impulse changes gently along with Mach number, but thrust fluctuates, especially in ramjet mode. During orbit-injecting process, hybrid mode is mainly used to raise height, ramjet mode is used to raise both height and speed, and scramjet mode is mainly used to raise speed.

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