Difference between revisions of "Radiator"

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(Operation: Correction.)
(Variants: TCSs break off in strong wind.)
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== Variants ==
 
== Variants ==
 
* Rigid, fixed '''Panels''', which only cool the part they are attached to and parts directly connected to that part.
 
* Rigid, fixed '''Panels''', which only cool the part they are attached to and parts directly connected to that part.
* Deployable '''Thermal Control Systems''', which take heat from every part of the vessel (as if plumbed in with a cooling fluid loop). Like the deployable [[Electric_charge#Solar_panels|Solar Panels]], these automatically rotate depending on the relative direction of [[Kerbol]], but turn edge-on to ''minimise'' their exposure to the sun's radiation.
+
* Deployable '''Thermal Control Systems''' (TCS), which take heat from every part of the vessel (as if plumbed in with a cooling fluid loop). Like the deployable [[Electric_charge#Solar_panels|Solar Panels]], these automatically rotate depending on the relative direction of [[Kerbol]], but turn edge-on to ''minimise'' their exposure to the sun's radiation. When deployed, they will break off from 2.5kPa of dynamic pressure (i.e. moving too fast through a fairly thick atmosphere).
  
 
{{Stats table radiators}}
 
{{Stats table radiators}}
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== Operation ==
 
== Operation ==
  

Revision as of 23:33, 14 March 2017

The radiators are special devices that can cool other parts of a craft, consuming a small amount of electric charge when operating. They dissipate heat into space (radiative) and atmosphere (convective). They make themselves as hot as possible for greater efficiency, by transferring heat in, but self limiting to avoid overheating to destruction. Their efficiency is also limited by ambient conditions.

Variants

  • Rigid, fixed Panels, which only cool the part they are attached to and parts directly connected to that part.
  • Deployable Thermal Control Systems (TCS), which take heat from every part of the vessel (as if plumbed in with a cooling fluid loop). Like the deployable Solar Panels, these automatically rotate depending on the relative direction of Kerbol, but turn edge-on to minimise their exposure to the sun's radiation. When deployed, they will break off from 2.5kPa of dynamic pressure (i.e. moving too fast through a fairly thick atmosphere).
Image Part Radial size Cost
(Funds)
Mass
(t)
Max. Temp.
(K)
Tolerance
(m/s)
Tolerance
(g)
Deployable Electricity
(⚡/s)
RadiatorPanelEdge.png
Radiator Panel (edge) Radial mounted 450 0.03 2 500 12 50 No 0.025
(1.5 ⚡/min)
Radiator Panel (small).png
Radiator Panel (small) Radial mounted 150 0.01 2 500 12 50 No 0.025
(1.5 ⚡/min)
Radiator Panel (large).png
Radiator Panel (large) Radial mounted 450 0.05 2 500 12 50 No 0.025
(1.5 ⚡/min)
Thermal Control System (small).png
Thermal Control System (small) Radial mounted 450 0.05 2 500 12 50 Yes 0.025
(1.5 ⚡/min)
Thermal Control System (medium).png
Thermal Control System (medium) Radial mounted 2 250 0.25 2 500 12 50 Yes 0.125
(0.1 ⚡/sec)
Thermal Control System (large).png
Thermal Control System (large) Radial mounted 9 000 1.0 2 500 12 50 Yes 0.5
(0.5 ⚡/sec)


Operation

To begin functioning, "Activate Radiator" must be selected from a panel's right click interface, or "Extend/Retract Radiator" for the thermal control systems, which also deploys them. Alternatively these functions can be bound to action groups, with the "Toggle Panels" option allowing a single action group to start and stop many radiators simultaneously.

Changes

1.1
  • "Fixed" radiators now also need to be activated before they start working.