Difference between revisions of "Parts/Engine/liquidEngineSSME/SSME.cfg"
From Kerbal Space Program Wiki
< Parts
m (Add missing closing brace) |
m (Update config) |
||
(One intermediate revision by the same user not shown) | |||
Line 1: | Line 1: | ||
− | {{Part config|S3 KS-25 "Vector" Liquid Fuel Engine|2= | + | {{Part config|S3 KS-25 "Vector" Liquid Fuel Engine|2=PART |
− | |||
− | PART | ||
{ | { | ||
name = SSME | name = SSME | ||
Line 24: | Line 22: | ||
entryCost = 115000 | entryCost = 115000 | ||
cost = 18000 | cost = 18000 | ||
− | category = | + | category = Engine |
subcategory = 0 | subcategory = 0 | ||
− | title = S3 KS-25 "Vector" Liquid Fuel Engine | + | title = #autoLOC_500457 //#autoLOC_500457 = S3 KS-25 "Vector" Liquid Fuel Engine |
− | manufacturer = Kerbodyne | + | manufacturer = #autoLOC_501638 //#autoLOC_501638 = Kerbodyne |
− | description = Kerbodyne's flagship engine, the KS-25 excels as a first stage engine through its high thrust-to-weight ratio and exceptional sea level efficiency. Kerbodyne engineers achieved this by running the engine in a staged combustion cycle and at extremely high chamber pressures. Special new alloys had to be invented to suppress the engine's tendency to become a bomb. The single version is designed with very durable components and high reusability, as well as higher gimbal range, but because of that is also heavier than its expendable counterpart used in first stage clusters. | + | description = #autoLOC_500458 //#autoLOC_500458 = Kerbodyne's flagship engine, the KS-25 excels as a first stage engine through its high thrust-to-weight ratio and exceptional sea level efficiency. Kerbodyne engineers achieved this by running the engine in a staged combustion cycle and at extremely high chamber pressures. Special new alloys had to be invented to suppress the engine's tendency to become a bomb. The single version is designed with very durable components and high reusability, as well as higher gimbal range, but because of that is also heavier than its expendable counterpart used in first stage clusters. |
attachRules = 1,1,1,1,0 | attachRules = 1,1,1,1,0 | ||
− | bulkheadProfiles = size1 | + | bulkheadProfiles = srf, size1 |
+ | tags = #autoLOC_500459 //#autoLOC_500459 = ascent main propuls rocket shuttle ssme (vector | ||
EFFECTS | EFFECTS | ||
{ | { | ||
Line 68: | Line 67: | ||
speed = 0.0 0.8 | speed = 0.0 0.8 | ||
speed = 1.0 1.0 | speed = 1.0 1.0 | ||
+ | localPosition = 0, 0, 0.08 | ||
} | } | ||
} | } | ||
Line 140: | Line 140: | ||
fxOffset = 0, 0, 0 | fxOffset = 0, 0, 0 | ||
EngineType = LiquidFuel | EngineType = LiquidFuel | ||
+ | exhaustDamageDistanceOffset = 1.5 | ||
PROPELLANT | PROPELLANT | ||
{ | { | ||
Line 166: | Line 167: | ||
rate = 3.0 | rate = 3.0 | ||
} | } | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
} | } | ||
MODULE | MODULE |
Latest revision as of 16:43, 10 October 2024
PART { name = SSME module = Part author = Porkjet mesh = SSME.mu rescaleFactor = 1 node_stack_top = 0.0,0.0,0.0 , 0.0, 1.0, 0.0, 1 node_stack_bottom = 0.0,-1.6,0.0 , 0.0, -1.0, 0.0, 1 mass = 4.0 // heatConductivity = 0.06 // half default emissiveConstant = 0.8 // engine nozzles are good at radiating. dragModelType = default maximum_drag = 0.2 minimum_drag = 0.2 angularDrag = 2 breakingForce = 400 breakingTorque = 400 crashTolerance = 22 maxTemp = 2000 // = 3600 TechRequired = veryHeavyRocketry entryCost = 115000 cost = 18000 category = Engine subcategory = 0 title = #autoLOC_500457 //#autoLOC_500457 = S3 KS-25 "Vector" Liquid Fuel Engine manufacturer = #autoLOC_501638 //#autoLOC_501638 = Kerbodyne description = #autoLOC_500458 //#autoLOC_500458 = Kerbodyne's flagship engine, the KS-25 excels as a first stage engine through its high thrust-to-weight ratio and exceptional sea level efficiency. Kerbodyne engineers achieved this by running the engine in a staged combustion cycle and at extremely high chamber pressures. Special new alloys had to be invented to suppress the engine's tendency to become a bomb. The single version is designed with very durable components and high reusability, as well as higher gimbal range, but because of that is also heavier than its expendable counterpart used in first stage clusters. attachRules = 1,1,1,1,0 bulkheadProfiles = srf, size1 tags = #autoLOC_500459 //#autoLOC_500459 = ascent main propuls rocket shuttle ssme (vector EFFECTS { running_closed { AUDIO { channel = Ship clip = sound_rocket_hard volume = 0.0 0.0 volume = 0.05 0.6 volume = 1.0 1.5 pitch = 0.0 1.2 pitch = 1.0 2.0 loop = true } PREFAB_PARTICLE { prefabName = fx_smokeTrail_light transformName = smokePoint emission = 0.0 0.0 emission = 0.05 0.0 emission = 0.075 0.25 emission = 1.0 1.25 speed = 0.0 0.25 speed = 1.0 1.0 localOffset = 0, 0, 0 } MODEL_MULTI_PARTICLE { //modelName = Squad/FX/ks25_Exhaust modelName = Squad/FX/hydroLOXFlame transformName = thrustPoint emission = 0.0 0.0 emission = 0.1 0.5 emission = 1.0 1.0 speed = 0.0 0.8 speed = 1.0 1.0 localPosition = 0, 0, 0.08 } } shockDiamond { // MODEL_MULTI_PARTICLE // { // modelName = Squad/FX/diamondBlue // transformName = thrustTransform // emission = 0.0 0.0 // //emission = 0.05 0.0 // //emission = 0.075 0.5 // emission = 1.0 1.0 // speed = 0.0 0.2 // speed = 1.0 1.0 // } PREFAB_PARTICLE { prefabName = fx_exhaustFlame_blue_small transformName = thrustTransformYup emission = 0.0 0.0 emission = 0.05 1.0 emission = 0.5 3.5 emission = 1.0 5.0 speed = 0.0 0.5 speed = 1.0 0.8 localOffset = 0, 0, 0 } } engage { AUDIO { channel = Ship clip = sound_vent_soft volume = 1.0 pitch = 2.0 loop = false } } flameout { PREFAB_PARTICLE { prefabName = fx_exhaustSparks_flameout_2 transformName = thrustTransform oneShot = true } AUDIO { channel = Ship clip = sound_explosion_low volume = 1.0 pitch = 2.0 loop = false } } } MODULE { name = ModuleEnginesFX engineID = KS25 runningEffectName = running_closed thrustVectorTransformName = thrustTransform powerEffectName = shockDiamond exhaustDamage = True ignitionThreshold = 0.1 minThrust = 0 maxThrust = 1000 heatProduction = 192 fxOffset = 0, 0, 0 EngineType = LiquidFuel exhaustDamageDistanceOffset = 1.5 PROPELLANT { name = LiquidFuel ratio = 0.9 DrawGauge = True } PROPELLANT { name = Oxidizer ratio = 1.1 } atmosphereCurve { key = 0 315 key = 1 295 key = 12 0.001 } } MODULE { name = ModuleAlternator RESOURCE { name = ElectricCharge rate = 3.0 } } MODULE { name = ModuleJettison jettisonName = Fairing bottomNodeName = bottom isFairing = True jettisonedObjectMass = 0.1 jettisonForce = 5 jettisonDirection = 0 0 1 } MODULE { name = ModuleGimbal gimbalTransformName = Nozzle gimbalRange = 10.5 gimbalResponseSpeed = 8 useGimbalResponseSpeed = true } MODULE { name = FXModuleAnimateThrottle animationName = SSME_Heat responseSpeed = 0.00025 dependOnEngineState = True dependOnThrottle = True } MODULE { name = ModuleTestSubject useStaging = True useEvent = True situationMask = 127 CONSTRAINT { type = REPEATABILITY value = ALWAYS prestige = Trivial } CONSTRAINT { type = REPEATABILITY value = BODYANDSITUATION prestige = Significant } CONSTRAINT { type = REPEATABILITY value = ONCEPERPART prestige = Exceptional } CONSTRAINT { type = ALTITUDEENV test = GT value = 4000 prestige = Trivial } CONSTRAINT { type = ALTITUDEENV test = LT value = 8000 prestige = Trivial } CONSTRAINT { type = ALTITUDEENV test = GT value = 2000 prestige = Significant } CONSTRAINT { type = ALTITUDEENV test = LT value = 4000 prestige = Significant } CONSTRAINT { type = ALTITUDEENV test = GT value = 1000 prestige = Exceptional } CONSTRAINT { type = ALTITUDEENV test = LT value = 2000 prestige = Exceptional } CONSTRAINT { type = ALTITUDE test = GT value = 0 // this just registers altitude as something to care about situationMask = 8 } CONSTRAINT { type = ALTITUDE test = LT value = 300000 situationMask = 16 body = _NotSun } CONSTRAINT { type = ALTITUDE test = LT value = 600000 situationMask = 32 body = _NotSun } CONSTRAINT { type = SPEED test = GT value = 0 situationMask = 8 prestige = Trivial } CONSTRAINT { type = SPEED test = LT value = 600 situationMask = 8 prestige = Trivial } CONSTRAINT { type = SPEED test = GT value = 300 situationMask = 8 prestige = Significant } CONSTRAINT { type = SPEED test = LT value = 1200 situationMask = 8 prestige = Significant } CONSTRAINT { type = SPEED test = GT value = 600 situationMask = 8 prestige = Exceptional } CONSTRAINT { type = SPEED test = LT value = 2500 situationMask = 8 prestige = Exceptional } CONSTRAINT { type = SPEEDENV test = LT value = 200 prestige = Trivial } CONSTRAINT { type = SPEEDENV test = GT value = 100 prestige = Trivial } CONSTRAINT { type = SPEEDENV test = LT value = 100 prestige = Significant } CONSTRAINT { type = SPEEDENV test = GT value = 50 prestige = Significant } CONSTRAINT { type = SPEEDENV test = LT value = 50 prestige = Exceptional } CONSTRAINT { type = SPEEDENV test = GT value = 20 prestige = Exceptional } } MODULE { name = ModuleSurfaceFX thrustProviderModuleIndex = 0 fxMax = 0.9 maxDistance = 75 falloff = 1.75 thrustTransformName = thrustTransform } }