Difference between revisions of "Spaceplane"

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m (Old Airfield is the new airfield; minor rewording)
(Propulsion: apoapsis fix, link periapsis & reaction engine, fix unnecessary noun-verbing)
 
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[[File:Aeris 4A in orbit 2.png|thumb|A spaceplane, the [[Aeris 4A]], in orbit]]
 
[[File:Aeris 4A in orbit 2.png|thumb|A spaceplane, the [[Aeris 4A]], in orbit]]
A '''spaceplane''' is a hybrid of a [[plane]] and a [[rocket]] capable of atmospheric flight with [[wing]]s and spaceflight with [[reaction engine]]s. Most spaceplanes are [[single-stage-to-orbit]] capable or have only some minor parts which aren't reusable. Because there is no disadvantage currently with not reusing parts, the biggest advantage of spaceplanes in comparison to rockets is not currently present.
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A '''spaceplane''' is a hybrid of a [[plane]] and a [[rocket]] capable of atmospheric flight with [[wing]]s and spaceflight with [[reaction engine]]s. Most spaceplanes are [[single-stage-to-orbit]] capable or have only some minor parts which aren't reusable. The main advantage of this is that, when playing in [[Career|Career mode]], more parts from the vessel can be [[Recovery|recovered]], thereby giving a higher amount of [[funds]] from retrieved parts. The main disadvantage is reduced payload and range as the launch engines, wings, and all fuel tanks must be carried everywhere in space. Designs like the Space Shuttle and Buran, having boosters and external fuel tanks, provide a compromise between capability and cost-saving.
  
 
== Construction ==
 
== Construction ==
 
Spaceplanes are usually built in the [[Spaceplane Hangar]] and launched from the [[Runway]], and some are launched from the [[Launch pad]] — often with a rocket reaching space.
 
Spaceplanes are usually built in the [[Spaceplane Hangar]] and launched from the [[Runway]], and some are launched from the [[Launch pad]] — often with a rocket reaching space.
  
Various pre-built [[stock craft|stock planes]] are available, but only the [[Aeris 4A]] has the means to reach space and would qualify as a [[w:Spaceplane|spaceplane]].
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Various pre-built [[stock craft|stock spaceplanes]] are available, 2 of which are SSTO spaceplanes; the [[Aeris 4A]] and the [[Dove]]. The latter especially shows how simple a small spaceplane can be with the [[CR-7 R.A.P.I.E.R. Engine]]. 3 are like the Space Shuttle to varying degrees; the [[Dynawing]], the Learstar A1 and the [[Slim Shuttle]].
  
 
=== Propulsion ===
 
=== Propulsion ===
[[Jet engine]]s can efficiently propel craft in [[Kerbin]] and [[Laythe]]'s [[atmosphere]]s. In space or oxygen-free atmospheres, less efficient reaction engines must be used. Reaction engines sometimes replace jet engines to simplify construction without restricting the craft to oxygenated atmosphere, but reducing the efficiency even more. A plane with only [[jet engine]]s cannot reach a stable orbit because its engines will shutdown before leaving the atmosphere. Although atmospheric acceleration can achieve a high [[apoapsis]], the periapsis stays within the atmosphere. Raising the periapsis out of the atmosphere requires non-airbreathing engines.
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[[Jet engine]]s can efficiently propel craft in [[Kerbin]] and [[Laythe]]'s [[atmosphere]]s. In space or oxygen-free atmospheres, less efficient [[reaction engine]]s must be used. Reaction engines sometimes replace jet engines to simplify construction without restricting the craft to oxygenated atmosphere, but reducing the efficiency even more. A plane with only [[jet engine]]s cannot reach a stable orbit because its engines will shut down before leaving the atmosphere. Such airbreathing engines are rarely capable of raising [[apoapsis]] out of Kerbin's atmosphere, and can never raise [[periapsis]] above their maximum operational height. Raising the periapsis out of the atmosphere requires non-airbreathing engines.
  
 
=== Maneuvering ===
 
=== Maneuvering ===
[[Winglet]]s, [[control surface]]s, or [[reaction wheel]]s enable atmospheric maneuvering, with [[RCS]] sometimes used in extreme situations. Winglets are useless in space. [[SAS]] is commonly maintains attitude while in atmosphere lest the spaceplane tilt if its [[center of mass]] is not at its [[center of lift]].
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[[Winglet]]s, [[control surface]]s, or [[reaction wheel]]s enable atmospheric maneuvering, with [[RCS]] sometimes used in extreme situations. Winglets are useless in space. [[SAS]] is commonly maintains attitude while in atmosphere lest the spaceplane tilt if its [[center of mass]] is not at its [[center of lift]].  Since the center of mass usually moves during flight due to fuel consumption, the craft can be [[w:Trim tab|trimmed]] using {{Key press|[[Mod]]|W}}{{Key press|A}}{{Key press|S}}{{Key press|D}}, essentially setting the 'default' position of the steering systems.
  
 
== Landing ==
 
== Landing ==
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=== Runway ===
 
=== Runway ===
Kerbin has two runways whereupon spaceplanes can land. The first is at [[KSC]], where most spaceplanes are also launched. It is long and wide.  If an approach fails, landing is still possible on the flat surrounding area. The second runway, at the [[Old Airfield]], is a dirt landing strip that is both shorter and narrower than the KSC runway, impeding landing.
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Kerbin has two runways whereupon spaceplanes can land. The first is at [[KSC]], where most spaceplanes are also launched. It is long and wide.  If an approach fails, landing is still possible on the flat surrounding area. The second runway, at the [[Island Airfield]], is a dirt landing strip that is both shorter and narrower than the KSC runway, impeding landing.
  
 
=== Elsewhere ===
 
=== Elsewhere ===
Any sufficiently flat terrain can be landed on. Most celestial bodies have among occasional mountain ranges, cliffs, or craters some flats. Smaller bodies' terrain, especially [[Mun]]'s, is usually rougher than larger ones', there impeding landing.
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Any sufficiently flat terrain can be landed on. Most celestial bodies have some level areas among occasional mountain ranges, cliffs, or craters. Smaller bodies' terrain, especially [[Mun]]'s, is usually rougher than larger ones', so it may require more time scouting before deorbiting.
  
 
=== Without an atmosphere ===
 
=== Without an atmosphere ===
Landing a spaceplane without an atmosphere is more difficult than landing within one. The plane's wings' mass increase inertia and can break. Normal landing gears cannot be vertically landed on because they face 90 degrees off retrograde.  Landing difficulty increases with gravity, usually requiring small vertical rockets or tail-mounted landing legs. A plane's cockpit can be a lander that returns to orbit and docks with its ship's winged part.
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Landing a spaceplane without an atmosphere is more difficult than within one.  
 +
 
 +
For a standard horizontal landing, finding a suitable strip of flat terrain can be a significant challenge, and there will be no aerodynamics to smooth the approach. A backwards landing can allow using engines to shorten the braking distance but likely complicates visibility and control. Regardless, the plane's wings' mass increase inertia and they're also vulnerable to breakage − drawbacks not faced with a typical rocket lander.
 +
 
 +
In a vertical landing, normally placed landing gear face 90 degrees off retrograde burn vector, so they cannot be used unless there's time to pitch the plane down to a level orientation after vertical speed is within safe tolerances.  Landing difficulty increases with gravity, usually requiring small vertical rockets or tail-mounted landing legs. Another strategy is building the plane's cockpit as a detachable lander that returns to orbit and docks with its ship's main body.
  
 
== Purposes ==
 
== Purposes ==
 
* Refueling [[space station]]s in orbit around Kerbin
 
* Refueling [[space station]]s in orbit around Kerbin
 
* Landing on Kerbin with the possibility of reuse
 
* Landing on Kerbin with the possibility of reuse
* Landing on and ascending from such atmospheric bodies as [[Laythe]], [[Duna]] or [[Eve]]
+
* Landing on and ascending from such atmospheric bodies as [[Laythe]], [[Duna]] or [[Eve]] (Jet engines will not work on Eve or Duna due to the lack of oxygen in the atmosphere, but the atmospheric control surfaces and rocket engines will)
 +
* Launching a satellite into orbit
 +
* Experiments
 +
* Crew transfers between Kerbin and LKO
 +
* Contract space tourism flights
  
 
== See also ==
 
== See also ==
 +
* [[Tutorial: Basic Plane Design]]
 +
* [[Tutorial: Spaceplane basics]]
 +
* [[Single-stage-to-orbit|Single-stage-to-orbit (SSTO)]]
 +
* [[Tutorial:Basic SSTO Design]]
 +
 +
== External links ==
 
* {{Wikipedia}}
 
* {{Wikipedia}}
  
 
[[Category:Craft]]
 
[[Category:Craft]]

Latest revision as of 04:10, 9 March 2022

A spaceplane, the Aeris 4A, in orbit

A spaceplane is a hybrid of a plane and a rocket capable of atmospheric flight with wings and spaceflight with reaction engines. Most spaceplanes are single-stage-to-orbit capable or have only some minor parts which aren't reusable. The main advantage of this is that, when playing in Career mode, more parts from the vessel can be recovered, thereby giving a higher amount of funds from retrieved parts. The main disadvantage is reduced payload and range as the launch engines, wings, and all fuel tanks must be carried everywhere in space. Designs like the Space Shuttle and Buran, having boosters and external fuel tanks, provide a compromise between capability and cost-saving.

Construction

Spaceplanes are usually built in the Spaceplane Hangar and launched from the Runway, and some are launched from the Launch pad — often with a rocket reaching space.

Various pre-built stock spaceplanes are available, 2 of which are SSTO spaceplanes; the Aeris 4A and the Dove. The latter especially shows how simple a small spaceplane can be with the CR-7 R.A.P.I.E.R. Engine. 3 are like the Space Shuttle to varying degrees; the Dynawing, the Learstar A1 and the Slim Shuttle.

Propulsion

Jet engines can efficiently propel craft in Kerbin and Laythe's atmospheres. In space or oxygen-free atmospheres, less efficient reaction engines must be used. Reaction engines sometimes replace jet engines to simplify construction without restricting the craft to oxygenated atmosphere, but reducing the efficiency even more. A plane with only jet engines cannot reach a stable orbit because its engines will shut down before leaving the atmosphere. Such airbreathing engines are rarely capable of raising apoapsis out of Kerbin's atmosphere, and can never raise periapsis above their maximum operational height. Raising the periapsis out of the atmosphere requires non-airbreathing engines.

Maneuvering

Winglets, control surfaces, or reaction wheels enable atmospheric maneuvering, with RCS sometimes used in extreme situations. Winglets are useless in space. SAS is commonly maintains attitude while in atmosphere lest the spaceplane tilt if its center of mass is not at its center of lift. Since the center of mass usually moves during flight due to fuel consumption, the craft can be trimmed using Mod+WASD, essentially setting the 'default' position of the steering systems.

Landing

Landing is most often done with only landing gear, which was also used during takeoff. Parachutes, rocket engines, and the gear's built-in brakes can slow the craft. During emergencies or beyond good landing spots, separating the command module and landing it with parachutes can save the crew in dense atmospheres.

Runway

Kerbin has two runways whereupon spaceplanes can land. The first is at KSC, where most spaceplanes are also launched. It is long and wide. If an approach fails, landing is still possible on the flat surrounding area. The second runway, at the Island Airfield, is a dirt landing strip that is both shorter and narrower than the KSC runway, impeding landing.

Elsewhere

Any sufficiently flat terrain can be landed on. Most celestial bodies have some level areas among occasional mountain ranges, cliffs, or craters. Smaller bodies' terrain, especially Mun's, is usually rougher than larger ones', so it may require more time scouting before deorbiting.

Without an atmosphere

Landing a spaceplane without an atmosphere is more difficult than within one.

For a standard horizontal landing, finding a suitable strip of flat terrain can be a significant challenge, and there will be no aerodynamics to smooth the approach. A backwards landing can allow using engines to shorten the braking distance but likely complicates visibility and control. Regardless, the plane's wings' mass increase inertia and they're also vulnerable to breakage − drawbacks not faced with a typical rocket lander.

In a vertical landing, normally placed landing gear face 90 degrees off retrograde burn vector, so they cannot be used unless there's time to pitch the plane down to a level orientation after vertical speed is within safe tolerances. Landing difficulty increases with gravity, usually requiring small vertical rockets or tail-mounted landing legs. Another strategy is building the plane's cockpit as a detachable lander that returns to orbit and docks with its ship's main body.

Purposes

  • Refueling space stations in orbit around Kerbin
  • Landing on Kerbin with the possibility of reuse
  • Landing on and ascending from such atmospheric bodies as Laythe, Duna or Eve (Jet engines will not work on Eve or Duna due to the lack of oxygen in the atmosphere, but the atmospheric control surfaces and rocket engines will)
  • Launching a satellite into orbit
  • Experiments
  • Crew transfers between Kerbin and LKO
  • Contract space tourism flights

See also

External links