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H-II

Japanese rocket

Field	Value
name	H-II
image	HII Tsukuba museum.jpg
caption	H-II rocket at Tsukuba science museum & planetarium
function	Medium-lift launch vehicle
manufacturer	{{Indented plainlist
country-origin	Japan
height	49 m
diameter	4 m
mass	260,000 kg
stages	2
derivatives	H-IIA
comparable	Ariane 4, LVM3
capacities	{{Infobox rocket/payload
location	LEO
mass	10,060 kg
location	GTO
mass	3930 kg
status	Retired
sites	Tanegashima, LA-Y1
first	3 February 1994
last	15 November 1999
launches	7
success	5
fail	1
partial	1
stagedata	{{Infobox rocket/stage
type	booster
number	2
solid	yes
thrust	1540 kN
total
SI	273 isp
burntime	94 seconds
type	stage
stageno	First
engines	1 × LE-7
thrust	1078 kN
SI	446 isp
burntime	346 seconds
fuel	LH2 / LOX
type	stage
stageno	Second
engines	1 × LE-5A
thrust	121.5 kN
SI	452 isp
burntime	600 seconds
fuel	LH2 / LOX
derived_from	H-I	family=H-II family

Mitsubishi Heavy Industries
Nissan Motors (sub)
Alliant Techsystems (sub, for the SRBs) |country-origin = Japan |cpl-year =

The H-II (H2) rocket was a Japanese satellite launch system, which flew seven times between 1994 and 1999, with five successes. It was developed by NASDA in order to give Japan a capability to launch larger satellites in the 1990s. It was the first two-stage liquid-fuelled rocket Japan made using only technologies developed domestically. It was superseded by the H-IIA rocket following reliability and cost issues.

Background

Prior to H-II, NASDA had to use components licensed by the United States in its rockets. In particular, crucial technologies of H-I and its predecessors were from the Delta rockets (the manufacturer of the Delta rockets, McDonnell Douglas, later Boeing and the United Launch Alliance, would later use the H-IIA's technologies (the rocket itself is the successor to the H-II) to create the Delta III, albeit short lived). Although the H-I did have some domestically produced components, such as LE-5 engine on the second stage and inertial guidance system, the most crucial part, the first stage engine, was a licence-built version of the Thor-ELT of the US. By developing the LE-7 liquid-fuel engine and the solid booster rockets for the first stage, all stages of H-II had become "domestically developed".

The H-II was developed under the following policies, according to a NASDA press release:

Develop the launch vehicle with Japanese space technology.
Reduce both development period and costs by utilizing developed technologies as much as possible.
Develop a vehicle which can be launched from the existing Tanegashima Space Center.
Use design criteria which allows sufficient performance for both the main systems and subsystems. Ensure that development will be carried out properly, and safety is taken into account.

The H-II was new, incorporating larger LH2/LOX tanks, and a new upper stage, consisting of a cylindrical LH2 tank with a capsule-shaped LOX tank. The LH2 tank cylinder carried payload launch loads, while the LOX tank and engine were suspended below within the rocket's inter-stage. The second stage was powered by a single LE-5A engine.

History

Development of the LE-7 engine which started in 1984 was not without hardships, and a worker died in an accidental explosion. The first engine was completed in 1994, two years behind the original schedule. The Rocket Systems Corporation (RSC), a consortium of 74 companies including Mitsubishi Heavy Industries, Nissan Motors, and NEC, was established in 1990 to manage launch operations after the rockets' completion. In 1992, it had 33 employees.

In 1994, NASDA succeeded in launching the first H-II rocket, and succeeded in five launches by 1997. However, each launch cost 19 billion yen (US$190 million), too expensive compared to international competitors like Ariane. (This is in part due to the Plaza Accord's changes to the exchange rate, which was 240 yen to a dollar when the project planning started in 1982, but had changed to 100 yen a dollar by 1994.) Development of the next-generation H-IIA rockets started in order to minimize launch costs.

In 1996, RSC signed a contract with the Hughes Space and Communications Group to launch 10 satellites. The successive failure of flight 5 in 1998 and flight 8 in the following year brought an end to the H-II series and the contract with Hughes. To investigate the cause of the failure and to direct resources into the H-IIA, NASDA cancelled flight 7 (which was to be launched after F8 due to changes in schedule), and terminated the H-II series.

Launch history

Main article: List of H-II series and H3 launches

Flight No.	Date / time (UTC)	Rocket,
Configuration	Launch site	Payload	Payload mass	Orbit	Customer	Launch
outcome	TF1 (Test Flight)	TF2	TF3	F4	F6	F5	F8
3 February 1994
22:20	H-II	Yoshinobu Launch Complex	OREX (Orbital Re-entry Experiment), VEP (Vehicle Evaluation Payload)		LEO / GTO
Ryūsei, Myōjō
28 August 1994
07:50	H-II	Yoshinobu Launch Complex	ETS-VI (Engineering Test Satellite-VI)		GEO
Kiku 6
18 March 1995
08:01	H-II	Yoshinobu Launch Complex	GMS-5 (Geostationary Meteorological Satellite-5) / SFU (Space Flyer Unit)		GEO / LEO
Himawari 5
17 August 1996
01:53	H-II	Yoshinobu Launch Complex	ADEOS I (Advanced Earth Observing Satellite) / Fuji OSCAR 29, JAS-2		LEO
Midori, Fuji 3
November 27, 1997
21:27	H-II	Yoshinobu Launch Complex	TRMM (Tropical Rainfall Measuring Mission) / ETS-VII (Engineering Test Satellite-VII)		LEO
Kiku 7 (Orihime & Hikoboshi)
February 21, 1998
07:55	H-II	Yoshinobu Launch Complex	COMETS (Communications and Broadcasting Engineering Test Satellites)		GEO
Kakehashi, Faulty brazing in second-stage engine cooling system caused engine burn through and cable damage resulting in shutdown midway through the upper stage's second burn, leaving spacecraft in elliptical LEO instead of GTO. Spacecraft thrusters raised orbit enough to complete some communications experiments.
November 15, 1999
07:29	H-II	Yoshinobu Launch Complex	MTSAT (Multi-functional Transport Satellite)		GEO
Cavitation in the first stage hydrogen turbopump impeller caused an impeller blade to fracture, resulting in loss of fuel and rapid shutdown of the engine at T+239 s. The vehicle impacted the ocean 380 km NW of Chichijima.

Gallery

Image:H-II-GTV.jpg|The Ground Test Vehicle of H-II, now installed at Tsukuba Space Center. Image:H-II_F7_02.JPG|The first and second stages of the canceled Flight 7, at a hangar in Tanegashima Space Center.

References

"H-II Launch Vehicle No.4". NASDA.
JAXA. "H-II Launch Vehicle". JAXA Website.
"About H-II Launch Vehicle". JAXA.
Helm. (1992-07-13). "Japan Discovers It's Harder to Be a Star in Space : Aerospace: The failure of a new rocket sets back its effort to become a key player in the commercial launch business.". Los Angeles Times.
. (2000-05-26). ["Hughes cancels NASDA rocket deal"](https://www.japantimes.co.jp/news/2000/05/26/national/hughes-cancels-nasda-rocket-deal/). *The Japan Times*.

Info: Wikipedia Source

This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.

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