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Contents

   



(Top)
  


1 H-II Flight 8, only operational LE-7 failure  




2 LE-7A  


2.1  Changes / improvements  




2.2  New nozzle design (side-loading problem)  




2.3  Use on H-IIB  




2.4  LE-7A specifications  






3 See also  




4 References  




5 External links  













LE-7






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From Wikipedia, the free encyclopedia
  

LE-7
LE-7, Nagoya City Science Museum, 2006
Country of originJapan
DesignerJAXA
ManufacturerMitsubishi Heavy Industries
ApplicationBooster
StatusSucceeded by LE-7A upgrade
Liquid-fuel engine
PropellantLOX / LH2
Mixture ratio5.9:1
CycleStaged combustion
Configuration
Chamber1
Nozzle ratio52:1
Performance
Thrust, vacuum1,078 kN (242,000 lbf)
Thrust, sea-level843.5 kN (189,600 lbf)
Thrust-to-weight ratio64.13
Chamber pressure12.7 MPa (1,840 psi)
Specific impulse, vacuum446 seconds (4.37 km/s)
Specific impulse, sea-level349 seconds (3.42 km/s)
Dimensions
Length3.4 m
Dry weight1,714 kg (3,779 lb)
Used in
H-II first stage
LE-7A, (Mitsubishi Heavy Industries show-room, Shinagawa, Japan)

The LE-7 and its succeeding upgrade model the LE-7A are staged combustion cycle LH2/LOX liquid rocket engines produced in Japan for the H-II series of launch vehicles. Design and production work was all done domestically in Japan, the first major (main/first-stage) liquid rocket engine with that claim, in a collaborative effort from the National Space Development Agency (NASDA), Aerospace Engineering Laboratory (NAL), Mitsubishi Heavy Industries, and Ishikawajima-Harima. NASDA and NAL have since been integrated into JAXA. However, a large part of the work was contracted to Mitsubishi, with Ishikawajima-Harima providing turbomachinery, and the engine is often referred to as the Mitsubishi LE-7(A).

The original LE-7 was an expendable, high efficiency, medium-sized motor with sufficient thrust for use on the H-II.

H-II Flight 8, only operational LE-7 failure[edit]

The fuel turbopump had an issue using the originally designed inducer (a propeller-like axial pump used to raise the inlet pressure of the propellant ahead of the main turbopumps to prevent cavitation) where the inducer would itself begin to cavitate and cause an imbalance resulting in excessive vibration. A comprehensive post-flight analysis of the unsuccessful 8th H-II launch, including a deep ocean retrieval of the wreckage, determined that fatigue due to this vibration was the cause of premature engine failure.

LE-7A[edit]

The LE-7A is an upgraded model from the LE-7 rocket engine. Basic design is unchanged from the original model. The 7A had additional engineering effort placed on cost cutting, reliability, and performance developments. The renovation was undertaken to mate it with the likewise improved H-IIA launch vehicle, with the common goal being a more reliable, more powerful and flexible, and more cost effective launch system.

Changes / improvements[edit]

Specific emphasis was placed on reducing or the amount of required welding by allowing for more machinedorcast components, and to simplify as many of the remaining welds as possible. This resulted in a substantial rework of the pipe routing (which makes the outward appearance of the two models considerably different). To combat the fuel inducer complications described above, the fuel inducer was redesigned for the 7A. The oxidizer inducer was also redesigned, but this was primarily due to poor performance at low inlet pressures as opposed to reliability concerns. The fuel turbopump itself was also the subject of various durability enhancements. Additionally the combustion chamber/injector assembly underwent a number of small changes, like decreasing the number of injector elements, to reduce machining complexity (and thus cost) and improve reliability. While these changes overall resulted in a drop in maximum specific impulse to 440 seconds (4.3 km/s) (basically making the engine less fuel efficient), the trade off for lower cost and enhanced reliability was considered acceptable.

New nozzle design (side-loading problem)[edit]

For the new engine model, a nozzle extension was designed that could be added to the base of the new standard “short” nozzle when extra performance was required. But when the engine was fitted with the nozzle extension, the 7A encountered a new problem with unprecedented side-loads and irregular heating on the nozzle strong enough to damage the gimbal actuators and regenerative cooling tubes during startup. Meticulous computational fluid dynamics (CFD) work was able to sufficiently replicate and trace the dangerous transient loading and a new one-piece “long” nozzle with full regenerative cooling (as opposed to the original short nozzle with a separate film-cooled extension) was designed to mitigate the problem. Before this new nozzle was ready, some H-IIA's were launched using only the short nozzle. The 7A no longer uses a separate nozzle extension in any configuration.[1]

Use on H-IIB[edit]

The new H-IIB launch vehicles uses two LE-7A engines in its first stage.[2]

LE-7A specifications[edit]

See also[edit]

References[edit]

  1. ^ Yasuhide Watanabe; Norio Sakazume; Masanori Tsuboi (July 2003). "LE-7A Engine Separation Phenomenon Differences of the Two Nozzle Configurations". 39th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit. doi:10.2514/6.2003-4763. ISBN 978-1-62410-098-7. Retrieved 13 May 2023.
  • ^ "Overview of the H-IIB Launch Vehicle". JAXA. Retrieved 13 May 2023.

    • External links[edit]

    Wikimedia Commons has media related to LE-7.

    Retrieved from "https://en.wikipedia.org/w/index.php?title=LE-7&oldid=1170775071"
    Categories: 
    Rocket engines of Japan
     Rocket engines using hydrogen propellant
     Rocket engines using the staged combustion cycle
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    This page was last edited on 17 August 2023, at 03:32 (UTC).
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