Aeris 4A

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Revision as of 04:29, 17 November 2013 by Murph (talk | contribs) (Possible improvements: Nose wheel relocation also helps reduce flex.)
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A Aeris 4A ready to start.
In orbit around Kerbin above one of the craters.
Another shot in orbit prior to descending.

The Aeris 4A is a manned stock spaceplane with single-stage-to-orbit capabilities. With sufficient piloting skill it is capable of reaching a 100km circular Kerbin orbit, docking with another craft in orbit and returning safely to the ground without decoupling any parts.

Features

The Aeris 4A is equipped with two TurboJet Engines for atmospheric flight. The intake air is provided by four Radial Air Intakes and two Ram Air Intakes. For orbital flight, one LV-T30 Liquid Fuel Engine is provided.

Four RV-105 RCS Thruster Blocks and four Place-Anywhere 7 Linear RCS Ports are added for orbital control, allowing both rotational and translational movement.

With an Inline Clamp-O-Tron docking port facing upwards, it is possible to dock with other craft.

Action Groups

For faster switching between atmospheric and orbital flight, the Aeris 4A has four action groups predefined:

  1. Activate turbojet engines
  2. Activate liquid fuel engine
  3. Shutdown jet engines, toggle intakes
  4. Open docking port

Its engines are supposed to be controlled through action groups, not through staging.

Possible improvements

Almost all suggested modifications applied

Whilst the supplied plane does perform ok, there is some scope for tweaking and/or improving the design, with some quick and easy changes. These are just some basic ideas and things to try out:

  • Change the LV-T30 Liquid Fuel Engine to the Toroidal Aerospike Rocket, to reduce the chance of a tail strike on takeoff and landing, and arguably improve aesthetics. The aerospike engine is also more fuel-efficient, but has only 81% of the thrust (still sufficient to achieve a 100km circular orbit from a 20km transition from jets).
  • Change action groups 2 & 3 to toggle the engines, instead of just activating them. It is also possible to change the first action group, but this is only required for starting the engines on the runway.
  • Remove the Inline Advanced Stabilizer, as it's really not necessary with the changed SAS system. The cockpit now provides both sufficient reaction wheel torque and SAS. Atmospheric handling is arguably improved with less torque.
  • Move the nose wheel backwards, under the main body (e.g. under the docking port body section), to eliminate the approximately 2° nose down attitude when sitting on its wheels. This also helps to reduce body flex when sitting on the wheels.
  • Add struts between the cockpit and fuel tank or wings, to reduce flexing around the RCS tank and docking port.
  • Add batteries and solar panels, for extended duration orbiting.
  • Change the AV-R8 Winglets to Advanced Canards on the nose[dubious], and Standard Canard on the tail, for improved handling.
  • Add a ladder onto the cockpit.

After some of those improvements the centers of mass and lift may change which should be compensated by adjusting the wings forwards or backwards.

See also