|
|
|
|
|
|
|
Difference between revisions of "Fuel chamber"
Jump to navigation
Jump to search
m (→Basic Usage) |
m (→Basic Usage) |
||
| Line 44: | Line 44: | ||
* T1 fuel chambers require a [[nhurgite]] [[fuel rod]], T2 and T3 fuel chambers require an [[exorium]] [[fuel rod]]. | * 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, without enhancement. | * One fuel rod can support three generator units, or 3000 (3750 for T3) units of electricity per second, without enhancement. | ||
* | * Enhancers have no effect on the fuel chamber. | ||
== Types == | == Types == | ||
Revision as of 22:11, 5 May 2022
Fuel chambers are an integral part of generators, as they convert raw fuel from fuel rods and deliver processed fuel to generator units. Their conversion efficiency can be significantly increased with enhancers.
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, without enhancement.
- 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
Fuel input 90 per second (raw)
Fuel output 75 per second (refined)
Modular interfaces 9
Enhancement effect
- 66% efficiency (1x)
- 100% efficiency (2x)
- 116% efficiency (3x)
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
Fuel input 60 per second (raw)
Fuel output 75 per second (processed)
Modular interfaces 9
Enhancement effect
- 100% efficiency (1x)
- 150% efficiency (2x)
- 175% efficiency (3x)
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
Fuel input 60 per second (raw)
Fuel output 75 per second (processed)
Modular interfaces 9
Enhancement effect
- 100% efficiency (1x)
- 150% efficiency (2x)
- 175% efficiency (3x)
Composition
Device fields
| YOLOL field | Description | Range |
|---|---|---|
| FuelChamberFuel | The 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 |
| FuelChamberConversionRate | Fuel Chamber conversion rate, 0-135 in tier 1 and 0-60 in tier 2-3 chambers | 0-135 or 0-60 |
| FuelChamberUnitRateLimit | Upper limit for conversion rate for this fuel chamber, as a percentage. | 0 - 100 |
| FuelChamberUnitRate | Current conversion rate for this fuel chamber. Conversion is being performed at 1 conversion * this percentage per second | 0 - 100 |
To learn more about how to use fields, consult these wiki pages: