Difference between revisions of "Parts/Electrical/RTG/RTG.cfg"
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m (*update to 1.0;) |
BonusEventus (talk | contribs) (updated cfg for PB-Nuk to 1.05) |
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title = PB-NUK Radioisotope Thermoelectric Generator | title = PB-NUK Radioisotope Thermoelectric Generator | ||
manufacturer = Ionic Symphonic Protonic Electronics | manufacturer = Ionic Symphonic Protonic Electronics | ||
− | description = Through exploitation of the natural decay of Blutonium-238, this elegantly simple power generator can provide consistent, stable power for decades. | + | description = Through exploitation of the natural decay of Blutonium-238, this elegantly simple power generator can provide consistent, stable power for decades. Not to be used for providing heating during emergency rover excursions. |
attachRules = 1,1,1,0,0 | attachRules = 1,1,1,0,0 | ||
mass = 0.08 | mass = 0.08 | ||
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maxTemp = 1200 // = 3000 | maxTemp = 1200 // = 3000 | ||
bulkheadProfiles = size0, srf | bulkheadProfiles = size0, srf | ||
+ | radiatorMax = 1.5 | ||
+ | |||
+ | |||
MODULE | MODULE | ||
{ | { | ||
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} | } | ||
} | } | ||
− | |||
+ | |||
+ | MODULE | ||
+ | { | ||
+ | name = ModuleCoreHeat | ||
+ | CoreTempGoal = 350 //Internal temp goal - we don't transfer till we hit this point | ||
+ | CoreToPartRatio = 0.1 //Scale back cooling if the part is this % of core temp | ||
+ | CoreTempGoalAdjustment = 0 //Dynamic goal adjustment | ||
+ | CoreEnergyMultiplier = 0.01 //What percentage of our core energy do we transfer to the part | ||
+ | HeatRadiantMultiplier = 0.01 //If the core is hotter, how much heat radiates? | ||
+ | CoolingRadiantMultiplier = 0 //If the core is colder, how much radiates? | ||
+ | HeatTransferMultiplier = 0 //If the part is hotter, how much heat transfers in? | ||
+ | CoolantTransferMultiplier = 0 //If the part is colder, how much of our energy can we transfer? | ||
+ | radiatorCoolingFactor = 0 //How much energy we pull from core with an active radiator? >= 1 | ||
+ | radiatorHeatingFactor = 0 //How much energy we push to the active radiator | ||
+ | MaxCalculationWarp = 1000 //Based on how dramatic the changes are, this is the max rate of change | ||
+ | CoreShutdownTemp = 10000 //At what core temperature do we shut down all generators on this part? | ||
+ | MaxCoolant = 0 //Maximum amount of radiator capacity we can consume - 2500 = 1 small | ||
+ | PassiveEnergy | ||
+ | { | ||
+ | key = 0 25000 | ||
+ | key = 200 10000 | ||
+ | key = 250 50 | ||
+ | key = 300 25 | ||
+ | key = 350 0 | ||
+ | } | ||
+ | } | ||
}} | }} |
Revision as of 16:19, 14 February 2016
PART { name = rtg module = Part author = NovaSilisko mesh = model.mu scale = 1 rescaleFactor = 1 node_stack_top = 0.0, 0.3268025, 0.0, 0.0, 1.0, 0.0, 0 node_stack_bottom = 0.0, -0.3268025, 0.0, 0.0, -1.0, 0.0, 0 node_attach = 0.0, -0.3268025, 0.0, 0.0, -1.0, 0.0, 0 TechRequired = experimentalElectrics entryCost = 58000 cost = 23300 category = Utility subcategory = 0 title = PB-NUK Radioisotope Thermoelectric Generator manufacturer = Ionic Symphonic Protonic Electronics description = Through exploitation of the natural decay of Blutonium-238, this elegantly simple power generator can provide consistent, stable power for decades. Not to be used for providing heating during emergency rover excursions. attachRules = 1,1,1,0,0 mass = 0.08 dragModelType = default maximum_drag = 0.2 minimum_drag = 0.2 angularDrag = 2 crashTolerance = 7 maxTemp = 1200 // = 3000 bulkheadProfiles = size0, srf radiatorMax = 1.5 MODULE { name = ModuleGenerator isAlwaysActive = true OUTPUT_RESOURCE { name = ElectricCharge rate = 0.75 } } MODULE { name = ModuleCoreHeat CoreTempGoal = 350 //Internal temp goal - we don't transfer till we hit this point CoreToPartRatio = 0.1 //Scale back cooling if the part is this % of core temp CoreTempGoalAdjustment = 0 //Dynamic goal adjustment CoreEnergyMultiplier = 0.01 //What percentage of our core energy do we transfer to the part HeatRadiantMultiplier = 0.01 //If the core is hotter, how much heat radiates? CoolingRadiantMultiplier = 0 //If the core is colder, how much radiates? HeatTransferMultiplier = 0 //If the part is hotter, how much heat transfers in? CoolantTransferMultiplier = 0 //If the part is colder, how much of our energy can we transfer? radiatorCoolingFactor = 0 //How much energy we pull from core with an active radiator? >= 1 radiatorHeatingFactor = 0 //How much energy we push to the active radiator MaxCalculationWarp = 1000 //Based on how dramatic the changes are, this is the max rate of change CoreShutdownTemp = 10000 //At what core temperature do we shut down all generators on this part? MaxCoolant = 0 //Maximum amount of radiator capacity we can consume - 2500 = 1 small PassiveEnergy { key = 0 25000 key = 200 10000 key = 250 50 key = 300 25 key = 350 0 } }