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Bipropellant
Thrusters
4 N Model S4
10 N Model S10 - 01
10 N Model S10 - 02
10 N Details
22 N Model S22 - 2
200 N Model ATV
400 N Model S400-10
400 N Model S400-12
400 N Details
500 N Model EAM
500 N Details
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22 N Bipropellant Thruster
Model No S22-02
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Bipropellant Thrusters and Apogee Motors
Thrusters and apogee motors for satellites, space probes, spacecraft and orbital transfer vehicles.
For over 30 years, bipropellant thrusters from Astrium Lampoldshausen
have been used for a diversity of mission applications, including
attitude, trajectory, manoeuvering and orbit control of large satellites
and spacecraft, deep space probes and apogee orbit injection of
Geostationary satellites.
Thrust Range
Bipropellant thrusters range from 4 N to 400 N thrust. A new,
high performance 500 N model will also be available in 2008. This
model is ITAR free and known as the European
Apogee Motor, designed for large GTO satellites and a range
of other missions
The 'work horse' thrusters specified for most applications are
the 10 N and 400 N models. Thrusters up to 22 N are designed for both long term steady state
and pulse mode operation.
The 400 N thrusters are designed for long term steady state operation
over a wide operating pressure range in pressure regulated mode
and are mainly specified for apogee boost applications.
Our complete range is as follows
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Bipropellant
Thruster Models
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Thrust
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4
N
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10
N
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22
N
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400
N
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500
N
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Model
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Materials
and Durability
Our complete range of bipropellant thrusters have their combustion
chamber and nozzle throat manufactured from a heat and oxidation
resistant platinum alloy. This enables longer life and higher operating
temperatures to maximise thruster performance. In addition, the
use of this alloy avoids the need for surface coatings. The uncoated
surfaces are absolutely resistant against oxidation and are invulnerable
to the use of test sensors and pulse mode cycling.
Systems Flow Rate Calibration
All bipropellant thrusters are provided with trimming orifices
upstream of the propellant control valves. This feature allows for
individual adjustment of the propellant flow rate according to the
systems design pressure.
Propellant Control Valve
Except for the S10-23 thruster and the 500N EAM, all of our bipropellant
thrusters are equipped with control valves supplied by our long-standing
partner MOOG, East Aurora, USA.
Thruster Variants
Each bipropellant thruster model is available in at least two
variant types to more closely match the specified application and
customer requirements.
Example 1:
The 10 N bipropellant thruster is available with two types of flow
control valve:
 a single seat, monostable, torque motor valve, or
a dual seat valve, which is a combined unit of two single seat
torque motor valves configured in series by way of an upstream
latch valve and a downstream monostable valve.
Both of the above thruster types have identical performance.
Example 2:
The 400 N bipropellant thruster has two models. Model S400 -
13 is equipped with a larger nozzle and therefore operates at
3 to 4 sec higher Isp than model S400 - 12. Both models are available
off the shelf.
Fulfilment of Requirements
Our bipropellant engines and thrusters are designed and tailored
to fulfil all the requirements for orbital satellites or deep space
probes, including orbit injection and all manoeuvres required to
maintain a stable orbit and attitude throughout the spacecraft's
operating service life.
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Support structure with
400 N engine & heat shield
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Hardware Supply
We supply from thruster component level and thrusters through
to heat shields, support structure kits and complete propulsion
systems for satellites, spacecraft, orbital platforms, interplanetary
probes, deep space missions and man-rated systems.
Thruster Availability
We produce over 200 thrusters per year for international
spacecraft and satellite propulsion systems. Thrusters in high demand are economically produced on a serial like production and are therefore readily available, subject to customer specific requirements.
Thrusters with less demand are made to order. The current availability status is provided for each bipropellant thruster within the range, shown below:
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4
N BIPROPELLANT THRUSTER Model S4
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Characteristics
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| Propellants |
MON
/ MMH |
| Thrust vac |
4 N |
| Power |
6 kW
8 hp |
| Isp vac |
284.9 sec |
| Chamber pressure |
4 bar |
| Overall length |
115 mm |
| Nozzle diameter |
30 mm |
| Mass |
290 g |
Status: Made to special order.
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10
N BIPROPELLANT THRUSTER Model S10 - 01
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Characteristics
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| Propellants |
MON
/ MMH |
| Thrust vac |
10 N |
| Power |
14 kW
19 hp |
| Isp vac |
286 sec |
| Chamber pressure |
7 bar |
| Overall length |
138 mm |
| Nozzle diameter |
37 mm |
| Mass |
350g |
Heritage
Status: Made to order.
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10
N BIPROPELLANT THRUSTER Model S10 -02
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Characteristics
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| Propellants |
MON
/ MMH |
| Thrust vac |
10 N |
| Power |
14 kW
19 hp |
| Isp vac |
291.5 sec |
| Chamber pressure |
9 bar |
| Overall length |
138 / 174 mm |
| Nozzle diameter |
37 mm |
| Mass |
310 g / 530 g |
Heritage
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22
N BIPROPELLANT THRUSTER Model S22 - 02
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Characteristics
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| Propellants |
MON
/ MMH |
| Thrust vac |
22 N |
| Power |
31 kW
42 hp |
| Isp vac |
290 sec |
| Chamber pressure |
9 bar |
| Overall length |
212 mm |
| Nozzle diameter |
55 mm |
| Mass |
650 g |
Status: Under Qualification
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400
N BIPROPELLANT ENGINE Model S400 - 10
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Characteristics
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| Propellants |
MON
/ MMH |
| Thrust vac |
400 N |
| Power |
595 kW
810 hp |
| Isp vac |
303 sec |
| Chamber pressure |
7 bar |
| Overall length |
531 mm |
| Nozzle diameter |
248 mm |
| Mass |
2.8 kg |
Heritage
Status:
Superseded by Model S400 - 20 and its variants S400 - 12 and S400 - 15 shown below.
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400
N BIPROPELLANT ENGINE Models S400-12 and S400-15
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Characteristics
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S400 - 12 |
S400 - 15
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Propellants
- Fuel
- Oxidiser
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MMH
N2O4, MON-1, MON-3
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| Thrust, Nominal |
420 N |
425 N |
| Isp, Nominal |
318 s |
321 s |
| Chamber pressure |
10 bar |
| Overall length |
503 mm |
669 mm |
| Nozzle diameter |
244 mm |
292 mm |
| Mass |
3.60 kg |
4.30 kg |
More Details
Heritage
Status: Readily Available
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500
N EUROPEAN APOGEE MOTOR
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Characteristics
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Propellants
- Fuel
- Oxidiser
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MMH
N2O4, MON-1, MON-3
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| Thrust, Nominal |
500 +/- 20N |
| Isp, Nominal |
>/= 325 sec |
| Chamber pressure |
10 bar |
| Overall length |
803 mm |
| Nozzle diameter |
382 mm |
| Mass |
< 5 kg |
More
Details
Status: Available in 2008
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Supporting Services
In support of our products and customers, the Lampoldshausen Centre is able to offer every
range of supporting service that you would expect from us, including:
Design,
analysis,
modelling, manufacturing, AIT
of deep space and orbital
propulsion systems.
Consultancy:
systems, manufacturing, analysis, integration, testing, test stand
design etc.
Analysis,
modelling, propulsion system simulation and performance prediction.
Thruster
design, development, manufacture
and production.
Test
facilities and test
support.
Hot
fire testing and all associated activities within the same site.
Test stand
and test cell design, maintenance.
Ground
support equipment.
Propellant
supply and delivery throughout the world.
Complete
launch site support.
Safety
equipment.
Technical Brochure
A comprehensive brochure is available on eah of our 'off-the-shelf' bipropellant thrusters
and apogee engines. Here, you will find more detailed technical
information, including:
Detailed
characteristics.
Thruster
operating range as a function of propellant inlet pressures.
Thermal
characteristics as a function of distance from nozzle throat.
Steady
state performance.
Pulse
mode performance diagrams.
Vibration
load diagrams: Random and Sinusoidal vibration, shock spectrum.
Structural
interfaces and dimensioning
Contact for Further Information
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If
you require more detailed information on any of our products or services,
then please contact
us, indicating your particular areas of interest or intended application.
Your enquiry will receive our best attention.
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