Parts/Resources/MiniISRU/MiniISRU.cfg
From Kerbal Space Program Wiki
PART { name = MiniISRU module = Part author = RoverDude MODEL { model = Squad/Parts/Resources/MiniISRU/MiniISRU scale = 1.25,1.25,1.25 } rescaleFactor = 1 node_stack_top = 0.0, .9, 0.0, 0.0, 1.0, 0.0, 1 node_stack_bottom = 0.0, -.9, 0.0, 0.0, -1.0, 0.0, 1 TechRequired = advScienceTech entryCost = 4000 cost = 1000 category = Utility subcategory = 0 title = #autoLOC_500661 //#autoLOC_500661 = Convert-O-Tron 125 manufacturer = #autoLOC_501638 //#autoLOC_501638 = Kerbodyne description = #autoLOC_500662 //#autoLOC_500662 = A smaller version of Kerbodyne's mobile processing plant, this module can take raw materials containing even trace amounts of oxygen and hydrogen, and crack them into useful fuel products. When operated by a skilled engineer, you will be able to operate with better efficiency. While this smaller model is lighter than it's bigger cousin, it is less efficient, and not designed for long-term operations. These modules operate best at their ideal operating temperatures, and features auto-shutdown in the event of excessive overheating. Radiators can be used to help manage excessive heat. attachRules = 1,0,1,1,0 // --- standard part parameters --- mass = 1.25 dragModelType = default maximum_drag = 0.2 minimum_drag = 0.2 angularDrag = 2 crashTolerance = 7 maxTemp = 2000 // = 3500 bulkheadProfiles = size1 tags = #autoLOC_500663 //#autoLOC_500663 = conver isru mine )mining (ore process resource MODULE { name = ModuleOverheatDisplay } MODULE { name = ModuleResourceConverter ConverterName = #autoLOC_502026 //#autoLOC_502026 = Lf+Ox StartActionName = #autoLOC_502027 //#autoLOC_502027 = Start ISRU [Lf+Ox] StopActionName = #autoLOC_502028 //#autoLOC_502028 = Stop ISRU [Lf+Ox] AutoShutdown = true TemperatureModifier { key = 0 50000 0 0 key = 750 25000 0 0 key = 1000 5000 0 0 key = 1250 2500 0 0 key = 2000 2500 0 0 key = 4000 0 0 0 } GeneratesHeat = true DefaultShutoffTemp = .8 ThermalEfficiency { key = 0 0 0 0 key = 500 0.9 0 0 key = 1000 1.0 0 0 key = 1250 0.9 0 0 key = 1500 0.5 0 0 key = 3000 0.0 0 0 } UseSpecialistBonus = true SpecialistEfficiencyFactor = 0.2 SpecialistBonusBase = 0.05 UseSpecialistHeatBonus = true SpecialistHeatFactor = 0.1 ExperienceEffect = ConverterSkill EfficiencyBonus = 1 resourceOutputName = #autoLOC_8012033 // #autoLOC_8012033 = LF+Ox INPUT_RESOURCE { ResourceName = Ore Ratio = 2.5 FlowMode = STAGE_PRIORITY_FLOW } INPUT_RESOURCE { ResourceName = ElectricCharge Ratio = 30 } OUTPUT_RESOURCE { ResourceName = LiquidFuel Ratio = 0.225 DumpExcess = false FlowMode = STAGE_PRIORITY_FLOW } OUTPUT_RESOURCE { ResourceName = Oxidizer Ratio = 0.275 DumpExcess = false FlowMode = STAGE_PRIORITY_FLOW } } MODULE { name = ModuleResourceConverter ConverterName = #autoLOC_502032 //#autoLOC_502032 = LiquidFuel StartActionName = #autoLOC_502033 //#autoLOC_502033 = Start ISRU [LqdFuel] StopActionName = #autoLOC_502034 //#autoLOC_502034 = Stop ISRU [LqdFuel] AutoShutdown = true TemperatureModifier { key = 0 50000 key = 750 25000 key = 1000 5000 key = 1250 2500 key = 2000 2500 key = 4000 0 } GeneratesHeat = true DefaultShutoffTemp = .8 ThermalEfficiency { key = 0 0 0 0 key = 500 0.9 0 0 key = 1000 1.0 0 0 key = 1250 0.9 0 0 key = 1500 0.5 0 0 key = 3000 0.0 0 0 } UseSpecialistBonus = true SpecialistEfficiencyFactor = 0.2 SpecialistBonusBase = 0.05 UseSpecialistHeatBonus = true SpecialistHeatFactor = 0.1 ExperienceEffect = ConverterSkill EfficiencyBonus = 1 resourceOutputName = #autoLOC_8012032 // #autoLOC_8012032 = LqdFuel INPUT_RESOURCE { ResourceName = Ore Ratio = 2.25 FlowMode = STAGE_PRIORITY_FLOW } INPUT_RESOURCE { ResourceName = ElectricCharge Ratio = 30 } OUTPUT_RESOURCE { ResourceName = LiquidFuel Ratio = 0.45 DumpExcess = false FlowMode = STAGE_PRIORITY_FLOW } } MODULE { name = ModuleResourceConverter ConverterName = #autoLOC_502035 //#autoLOC_502035 = Oxidizer StartActionName = #autoLOC_502036 //#autoLOC_502036 = Start ISRU [Ox] StopActionName = #autoLOC_502037 //#autoLOC_502037 = Stop ISRU [Ox] AutoShutdown = true TemperatureModifier { key = 0 50000 key = 750 25000 key = 1000 5000 key = 1250 2500 key = 2000 2500 key = 4000 0 } GeneratesHeat = true DefaultShutoffTemp = .8 ThermalEfficiency { key = 0 0 0 0 key = 500 0.9 0 0 key = 1000 1.0 0 0 key = 1250 0.9 0 0 key = 1500 0.5 0 0 key = 3000 0.0 0 0 } UseSpecialistBonus = true SpecialistEfficiencyFactor = 0.2 SpecialistBonusBase = 0.05 UseSpecialistHeatBonus = true SpecialistHeatFactor = 0.1 ExperienceEffect = ConverterSkill EfficiencyBonus = 1 resourceOutputName = #autoLOC_8012027 // #autoLOC_8012027 = Ox INPUT_RESOURCE { ResourceName = Ore Ratio = 2.75 FlowMode = STAGE_PRIORITY_FLOW } INPUT_RESOURCE { ResourceName = ElectricCharge Ratio = 30 } OUTPUT_RESOURCE { ResourceName = Oxidizer Ratio = 0.55 DumpExcess = false FlowMode = STAGE_PRIORITY_FLOW } } MODULE { name = ModuleResourceConverter ConverterName = #autoLOC_502045 //#autoLOC_502045 = MonoPropellant StartActionName = #autoLOC_502046 //#autoLOC_502046 = Start ISRU [MonoProp] StopActionName = #autoLOC_502047 //#autoLOC_502047 = Stop ISRU [MonoProp] AutoShutdown = true TemperatureModifier { key = 0 50000 key = 750 25000 key = 1000 5000 key = 1250 2500 key = 2000 2500 key = 4000 0 } GeneratesHeat = true DefaultShutoffTemp = .8 ThermalEfficiency { key = 0 0 0 0 key = 500 0.9 0 0 key = 1000 1.0 0 0 key = 1250 0.9 0 0 key = 1500 0.5 0 0 key = 3000 0.0 0 0 } UseSpecialistBonus = true SpecialistEfficiencyFactor = 0.2 SpecialistBonusBase = 0.05 UseSpecialistHeatBonus = true SpecialistHeatFactor = 0.1 ExperienceEffect = ConverterSkill EfficiencyBonus = 1 resourceOutputName = #autoLOC_8012026 // #autoLOC_8012026 = Monoprop INPUT_RESOURCE { ResourceName = Ore Ratio = 2.5 FlowMode = STAGE_PRIORITY_FLOW } INPUT_RESOURCE { ResourceName = ElectricCharge Ratio = 30 } OUTPUT_RESOURCE { ResourceName = MonoPropellant Ratio = 0.5 DumpExcess = false FlowMode = STAGE_PRIORITY_FLOW } } MODULE { name = ModuleCoreHeat CoreTempGoal = 1000 //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 = 0.1 //What percentage of our core energy do we transfer to the part HeatRadiantMultiplier = 0.25 //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 = 0.01 //If the part is colder, how much of our energy can we transfer? radiatorCoolingFactor = 1 //How much energy we pull from core with an active radiator? >= 1 radiatorHeatingFactor = 0.05 //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 = 1500 //At what core temperature do we shut down all generators on this part? MaxCoolant = 75 //Maximum amount of radiator capacity we can consume - 50 = 1 small } MODULE { name = ModuleCargoPart packedVolume = -1 } }