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Difference between revisions of "Fuel chamber"
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|fuelIn=90 per second ''(raw)'' | |fuelIn=90 per second ''(raw)'' | ||
|fuelOut=75 per second ''(refined)'' | |fuelOut=75 per second ''(refined)'' | ||
|heatGeneration=95 per second | |||
|modInterfaces=9 | |modInterfaces=9 | ||
}} | }} | ||
| Line 96: | Line 97: | ||
|fuelIn=60 per second ''(raw)'' | |fuelIn=60 per second ''(raw)'' | ||
|fuelOut=75 per second ''(processed)'' | |fuelOut=75 per second ''(processed)'' | ||
|heatGeneration=95 per second | |||
|modInterfaces=9 | |modInterfaces=9 | ||
}} | }} | ||
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|fuelIn=60 per second ''(raw)'' | |fuelIn=60 per second ''(raw)'' | ||
|fuelOut=75 per second ''(processed)'' | |fuelOut=75 per second ''(processed)'' | ||
|heatGeneration=80 per second | |||
|modInterfaces=9 | |modInterfaces=9 | ||
}} | }} | ||
Revision as of 12:31, 9 March 2023
Fuel chambers are an integral part of generators, as they convert raw fuel from fuel rods and deliver processed fuel to generator units.
Basic Usage
- NOTE! tier 1 generator parts are not compatible with Tier 2 or 3.
- Tier 2 and tier 3 parts are compatible.
- Receives Raw Fuel from the fuel rod and converts it to Processed Fuel.
- This process also generates Heat.
- Distributes Processed Fuel to generator units.
- There are nine connectors, two on each long side and one on the "back" side of the chamber.
- Other modules can be attached to the connectors.
- Fuel chambers produce heat proportional to their unit rate.
- For every adjacent generator unit or fuel chamber, extra heat will be generated.
- See heat mechanics for more info.
- T1 fuel chambers require a nhurgite fuel rod, T2 and T3 fuel chambers require an exorium fuel rod.
- One fuel rod can support three generator units, or 3000 (3750 for T3) units of electricity per second.
- Enhancers have no effect on the fuel chamber.
Types
Tier 1 fuel chamber
Size 192×96×96 cm
Mass 7628.8 kg
Volume 765.83 kv
Corrosion resistance 300
Primary material Bastium
Input / Output
Heat generation 95 per second
Fuel input 90 per second (raw)
Fuel output 75 per second (refined)
Modular interfaces 9
Composition
Tier 2 fuel chamber
Size 192×96×96 cm
Mass 7411.4 kg
Volume 765.83 kv
Corrosion resistance 380
Primary material Aegisium
Input / Output
Heat generation 95 per second
Fuel input 60 per second (raw)
Fuel output 75 per second (processed)
Modular interfaces 9
Composition
Tier 3 fuel chamber
Size 192×96×96 cm
Mass 6728.6 kg
Volume 765.83 kv
Corrosion resistance 485
Primary material Ymrium
Input / Output
Heat generation 80 per second
Fuel input 60 per second (raw)
Fuel output 75 per second (processed)
Modular interfaces 9
Composition
Device fields
| YOLOL field | Description | Range |
|---|---|---|
| HeatProduction | Amount of heat the fuel chamber is currently producing per second | 0 - |
| FuelChamberFuel | Amount of fuel currently available in this chamber's fuel rod | 0 - 300000 |
| FuelChamberMaxFuel | Maximum amount of fuel that can be stored in this chamber's rod, zero if no rod | 0 - 300000 |
| FuelChamberStoredHeat | Amount of heat currently stored in the fuel chamber | 0 - 1500 |
| FuelChamberMaxStoredHeat | Maximum amount of heat that can be stored in the fuel chamber | 1500 |
| FuelChamberUnitRateLimit | Upper limit for conversion rate for this fuel chamber, as a percentage. | 0 - 100 |
| FuelChamberUnitRate | Current conversion rate for this fuel chamber, expressed as a percentage. | 0 - 100 |
To learn more about how to use fields, consult these wiki pages: