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Difference between revisions of "Generator (Assembly)"

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{{Otherlang2
{{Otherlang2
|jp=発電機(アセンブリ)
|jp=発電機(アセンブリ)
}}<section begin=test/>{{SB Infobox Begin
|ru=Генератор (Собранный)
}}{{SB Infobox Begin
|{{SB Infobox Header
|{{SB Infobox Header
  |image=[[Image:Starbase_generator.png]]
  |image=[[Image:Starbase_generator.png]]
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  |Radiator
  |Radiator
  |Enhancer
  |Enhancer
      |Heatsink
}}
}}
}}<section end=test/><section begin=summary/>Generators are one of the most essential parts of any constructs that need generated power. Most spaceships for example need to have a properly assembled generator in order for the ships to function. Every machine or device that requires power must be connected to the generator's socket board via a [[Cable tool|cable]], or otherwise to another source of power such as a [[Battery|battery]]. A generator is constructed from many modules, and these modules may be assembled in many different variations. The most basic form of a generator consists of a single generator unit, a fuel chamber, a socket board, and a cooling board with cooling cells.<section end=summary/>
}}<section begin=summary/>Generators are one of the most essential parts of any constructs that need generated power. Most spaceships for example need to have a properly assembled generator in order for the ships to function. Every machine or device that requires power must be connected to the generator's socket board via a [[Cable tool|cable]], or otherwise to another source of power such as a [[Battery|battery]]. A generator is constructed from many modules, and these modules may be assembled in many different variations. The most basic form of a generator consists of a single generator unit, a fuel chamber, a socket board, and a cooling board with cooling cells.<section end=summary/>


== Basic information ==
== Basic information ==
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* The '''generator unit''' (Within the generator unit '''processed fuel''' is processed into '''power''')
* The '''generator unit''' (Within the generator unit '''processed fuel''' is processed into '''power''')
* The '''cooling board''' (Cooling cells are placed here and '''coolant''' is processed to reduce '''heat''')  
* The '''cooling board''' (Cooling cells are placed here and '''coolant''' is processed to reduce '''heat''')  
* The '''socket board''' (For attaching cables)
* The '''socket board''' (For attaching cables, one per 100 000 power)
* '''Enhancers''' (For improving efficiency, in three different tiers)
* '''Enhancers''' (For improving efficiency, in three different tiers)


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| Generator Fuel Chamber Rods Used || ''Nhurgite'' Fuel Rods || ''Exorium'' Fuel Rods || ''Exorium'' Fuel Rods
| Generator Fuel Chamber Rods Used || ''Nhurgite'' Fuel Rods || ''Exorium'' Fuel Rods || ''Exorium'' Fuel Rods
|-
|-
| Generator Fuel Chamber Heat Generated  ||  100 ||  90 || 80
| Generator Fuel Chamber Heat Generated  ||  95 ||  95 || 80
|-
|-
| Generator Unit Electricity Generated per Second || 1000 || 1000 || 1250
| Generator Unit Electricity Generated per Second || 1000 || 1000 || 1250
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| Generator Unit Heat Generated || 100 || 90 || 80
| Generator Unit Heat Generated || 100 || 90 || 80
|-
|-
| Generator Fuel:Energy Ratio || 1:33 || 1:33 || 1:37
| (raw) Fuel:Energy Ratio || 1:33 || 1:50 || 1:62.5
|-
| (refined) Fuel:Energy Ratio || 1:40 || 1:40 || 1:50
|}
|}


== Heat and cooling ==
== Heat and cooling ==


Generator units and fuel chambers produce heat while working, which can be cooled by coolant cells or by radiators. The heat produced is directly related to the current unit rate, so at 50 rate the generator unit or fuel chamber produces 50% of the heat. Generator units do not overheat - they just cannot generate power past their ability to cool.
Generator units and fuel chambers produce heat while working, which can be cooled passively, by coolant cells or by radiators. The heat produced is directly related to the current unit rate, so at 50 rate the generator unit or fuel chamber produces 50% of the heat. If a generator overheats it will reset it's rate to 0.
 
 
* [[Fuel chamber]]s produce 100 (T1), 90 (T2) and 80 (T3) heat
* [[Generator unit]]s make 100 (T1), 90 (T2) and 80 (T3) heat + extra heat for each other generator unit they're adjacent to.
** Adjacency heat, for all tiers, and from 1 unit to 6, is as follows: 25, 55, 95, 145, 205, 280.
 
* [[Cooling rack]]s transfer 300 heat into cooling cells, regardless of how many cells are in the rack.
* Each [[radiator]] piece removes 90 heat, the base and extensions pieces function the same.
** Each [[pipe socket board]] can transfer 3000 heat, enough for 33.333 radiators.
 
[[Enhancer]]s do not affect the heat produced by the fuel chamber.
 
== Additional Information ==


* The [[Socket_board|Socket Board]] can transfer a maximum of 10,000 electricity per second. The amount of power being drawn by the ship is SocketUnitRate multiplied by 100.
'''See [[heat mechanics]] for in depth info.'''
* The GeneratorUnitRate field multiplied by 10 will give you the electricity per second that that generator block is producing.


== Device fields ==
== Device fields ==
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===[[Generator unit|Generator Unit]]===
===[[Generator unit|Generator Unit]]===
{{#lst:Generator_unit|deviceFields}}
{{#lst:Generator_unit|deviceFields}}
===[[Socket board|Socket Board]]===
{{#lst:Generator_socket_board|deviceFields}}
===[[Pipe socket board|Pipe Socket Board]]===
{{#lst:Generator_pipe_socket_board|deviceFields}}
===[[Cooling rack|Cooling Rack]]===
===[[Cooling rack|Cooling Rack]]===
{{#lst:Cooling_rack|deviceFields}}
{{#lst:Cooling_rack|deviceFields}}
===[[Cooling rack|Cooling Cell]]===
===[[Small_cooling_cell|Small Cooling Cell]]===
{{#lst:Generator_cooling_rack|deviceFields}}
{{#lst:Small_cooling_cell|deviceFields}}
===[[Radiator|Radiator]]===
<!-- I am a comment! ===[[Radiator|Radiator]]=== -->
{{#lst:Radiator|deviceFields}}
{{#lst:Radiator|deviceFields}}
 
{{#lst:Heatsink|deviceFields}}
To learn more about how to use fields, consult these wiki pages:
To learn more about how to use fields, consult these wiki pages:
* [[Universal tool|Universal Tool]]
* [[Universal tool|Universal Tool]]

Latest revision as of 19:42, 8 September 2024

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Starbase generator.png
An assembled exorium generator
Generators
Type Power generation
Function Converts exorium fuel to power

Sub-components
Starbase devices generator fuelrod.png
Starbase devices generator fuelchamber.png
Starbase devices generator unit.png
Starbase generator socketboard.png
Starbase generator coolingboard.png
CoolantSocketBoard.png
RadiatorParts.png
Starbase generator enhancers.png
Heatsinks group.png

Generators are one of the most essential parts of any constructs that need generated power. Most spaceships for example need to have a properly assembled generator in order for the ships to function. Every machine or device that requires power must be connected to the generator's socket board via a cable, or otherwise to another source of power such as a battery. A generator is constructed from many modules, and these modules may be assembled in many different variations. The most basic form of a generator consists of a single generator unit, a fuel chamber, a socket board, and a cooling board with cooling cells.

Basic information

Modules can be combined to build a generator for different needs and purposes, with varying shapes, sizes, and efficiency. A generator can be built from the following modules:

  • The fuel rod (This is the container for the the raw fuel that the fuel chamber will process to create energy)
  • The fuel chamber (The fuel rod is placed inside the fuel chamber. The raw fuel is then processed into processed fuel in the fuel chamber)
  • The generator unit (Within the generator unit processed fuel is processed into power)
  • The cooling board (Cooling cells are placed here and coolant is processed to reduce heat)
  • The socket board (For attaching cables, one per 100 000 power)
  • Enhancers (For improving efficiency, in three different tiers)


A generator creates its own resource network within it, which distributes and processes five different resources:

  • Raw Fuel - Stored in the fuel rod.
  • Processed Fuel - Processed in the fuel chamber from Raw Fuel.
  • Power - Processed in the generator unit from Processed Fuel.
  • Heat - Produced from the two latter processes, the processing of raw fuel and the processing of power.
  • Coolant - Stored in the cooling cells. Processed in the cooling board to reduce Heat.

Media

Generator Tiers

Generate components come in three tiers with differing characteristics:

Component Tier 1 - Basic Tier 2 - Efficient Tier 3 - Powerful
Generator Accent Colour Blue Red Yellow
Generator Fuel Chamber Rods Used Nhurgite Fuel Rods Exorium Fuel Rods Exorium Fuel Rods
Generator Fuel Chamber Heat Generated 95 95 80
Generator Unit Electricity Generated per Second 1000 1000 1250
Generator Unit Heat Generated 100 90 80
(raw) Fuel:Energy Ratio 1:33 1:50 1:62.5
(refined) Fuel:Energy Ratio 1:40 1:40 1:50

Heat and cooling

Generator units and fuel chambers produce heat while working, which can be cooled passively, by coolant cells or by radiators. The heat produced is directly related to the current unit rate, so at 50 rate the generator unit or fuel chamber produces 50% of the heat. If a generator overheats it will reset it's rate to 0.

See heat mechanics for in depth info.

Device fields

Fuel Rod

YOLOL field Description Range
StoredRawFuel The amount of fuel currently in this rod 0 - 300000
MaxRawFuel The maximum amount of fuel that can be stored in a fuel rod 300000

Fuel Chamber

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

Generator Unit

YOLOL field Description Range
ElectricityProduction Amount of electricity the generator unit is currently producing per second 0 -
HeatProduction Amount of heat the generator unit is currently producing per second 0 -
GeneratorUnitRateLimit Upper limit for conversion rate for this generator unit 0 - 100
GeneratorUnitRate Current conversion rate for this generator unit, expressed as a percentage. 0 - 100
GeneratorUnitStoredHeat Amount of heat currently stored in the generator unit 0 - 1500
GeneratorUnitMaxStoredHeat Maximum amount of heat that can be stored in the generator unit 1500

Cooling Rack

YOLOL field Description Range
CoolerUnitRateLimit Upper limit for conversion rate for this cooler 0 - 100
CoolerUnitRate Current conversion rate for this cooler. Conversion is being performed at 1 conversion * this percentage per second. 0 - 100

Small Cooling Cell

YOLOL field Description Range
CoolantPriority Cells with a higher priority get used up first and refilled last integer
StoredCoolant Current amount of coolant in this cooling cell 0 - MaxCoolant
MaxCoolant Maximum amount of coolant that can be stored in the cooling cell 10000


Radiator Base

YOLOL field Description Range
RadiatorHeatDissipation Current radiation rate for this radiator base 0 - 1500
RadiatorStoredHeat Current amount of heat in this radiator base 0 - RadiatorMaxStoredHeat
RadiatorMaxStoredHeat Maximum amount of heat that can be stored in the radiator base 1500

Radiator Extension

YOLOL field Description Range
RadiatorHeatDissipation Current radiation rate for this radiator extension 0 - 750
RadiatorStoredHeat Current amount of heat in this radiator extension 0 - RadiatorMaxStoredHeat
RadiatorMaxStoredHeat Maximum amount of heat that can be stored in the radiator extension 1500

Heatsink

YOLOL field Description Range
HeatTransferRateLimit Maximum heat transfer to radiators, expressed as a percentage 0 - 100
HeatTransferRate Current heat transfer to radiators, expressed as a percentage 0 - 100
HeatsinkStoredHeat Amount of heat stored inside the heatsink 0 - 15,000
HeatsinkMaxStoredHeat Maximum value for heat storage 0 - 15,000

To learn more about how to use fields, consult these wiki pages:

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