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

Issue:

2022年01期

Page:

30-37

Research Field:

研究与设计

Publishing date:

Info

Title:

Flow simulation of oxygen dome in thrust chamber of 25-ton LOX/LH₂ expansion cycle rocket engine

Author(s):

KONG Weipeng; XIE Heng

(Beijing Aerospace Propulsion Institute,Beijing 100076,China)

Keywords:

LOX/LH₂ expansion cycle rocket engine;  thrust chamber;  oxygen dome;  flow uniformity;  numerical simulation

PACS:

V434.1

DOI:

-

Abstract:

In order to improve the flow uniformity of oxygen nozzle outlet in the thrust chamber of a 25-ton LOX/LH₂ expansion cycle rocket engine,a three-dimensional steady-state numerical simulation of the flow field in the oxygen dome was conducted using CFD method,and the reasons for the uneven flow distribution at the outlet were analyzed. Four kinds of oxygen domes with improved structures were designed and each structure was optimized in detail. The flow field distribution in the oxygen dome and the flow distribution at the nozzle outlet were obtained by numerical simulation,and the effect of the equalizing plate and the liquid oxygen inlet structure on the flow uniformity at the nozzle outlet was analyzed. The results show that the uniformity of flow rate at the outlet can be significantly improved by adopting an expanded inlet structure to reduce the flow rate at the inlet of oxygen dome,and the relative distribution range of nozzle outlet flow is reduced from 11.97% to 4.54%. The outlet flow uniformity can be improved by increasing the orifice number and adjusting the orifice size,and the relative distribution range of nozzle outlet flow is reduced from 11.97% to 6.56%. Compared with the flat plate,the flow equalizing effect of convex plate or concave plate is worse.

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Memo

Memo:

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Common functions

Last Update: 1900-01-01