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Deuterium: Difference between revisions

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==Summary==
==Summary==
'''Deuterium''' is stable heavier isotope of [[Hydrogen]]. Rarely exists under natural conditions. Most comes from the reprocessing of hydrogen and collection from [[Gas Giant]]s via [[Orbital Collector]]s.

==Required Technology==


==Production Chain==
==Production Chain==
{{ProductionChainTable/head}}
{{ProductionChain
|Building=Fractionator
|Replicator=No
|Technology=Deuterium Fractionation
|Recipe=
{{ItemRecipe
|Out1=Deuterium
|Out1Qty=1
|CraftTime=1 %
|In1=Hydrogen
|In1Qty=1
}}
}}
|-
{{ProductionChain
|Building=Miniature Particle Collider
|Replicator=No
|Technology=Miniature Particle Collider
|Recipe=
{{ItemRecipe
|Out1=Deuterium
|Out1Qty=5
|CraftTime=2.5 s
|In1=Hydrogen
|In1Qty=10
}}
}}
|-
{{ProductionChain
|Building=Orbital Collector
|Replicator=Mine
|Technology=Gas Giants Exploitation
|Recipe=
{{ItemRecipe
|Out1=Deuterium
|Out1Qty=1
|In1=Gas Giant
|In1Qty=
|CraftTime=?
}}
}}
|}

==Production Progression Chart==
{{ProgressionChartCollapsible/begin}}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+Critical Photon-based production
!Stage 1
!Stage 2
!Stage 3
|-
| {{riq|Critical Photon|2}}
| {{riq|Hydrogen|2}} {{riq|Antimatter|2}}
| {{riq|Deuterium|2}} {{riq|Antimatter|2}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+Fire Ice-based production
!Stage 1
!Stage 2
!Stage 3
|-
| {{riq|Fire Ice|2}}
| {{riq|Hydrogen|1}} {{riq|Graphene|2}}
| {{riq|Deuterium|1}} {{riq|Graphene|2}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+Crude Oil-based production
!Stage 1
!Stage 2
!Stage 3
!Stage 4
|-
| {{riq|Crude Oil|2}}
| {{riq|Hydrogen|1}} {{riq|Refined Oil|2}}
| {{riq|Hydrogen|3}} {{riq|Energetic Graphite|2}}
| {{riq|Deuterium|3}} {{riq|Energetic Graphite|2}}
|}
'''Note:''' [[Hydrogen]] created during [[Crude Oil]]-based production must be recycled through the system to ensure full efficiency. Final stage quantities are remaining surplus available for distribution.
{{ProgressionChartCollapsible/end}}

==Used In==
{{ProductionChainTable/head}}
{{ProductionChain
|Building=Assembling Machine
|Replicator=Yes
|Technology=Mini Fusion Power Generation
|Recipe=
{{ItemRecipe
|Out1=Deuteron Fuel Rod
|Out1Qty=2
|CraftTime=12 s
|In1=Titanium Alloy
|In1Qty=1
|In2=Deuterium
|In2Qty=20
|In3=Super-Magnetic Ring
|In3Qty=1
}}
}}
|-
{{ProductionChain
|Building=Miniature Particle Collider
|Replicator=No
|Technology=Strange Matter
|Recipe=
{{ItemRecipe
|Out1=Strange Matter
|Out1Qty=1
|CraftTime=8 s
|In1=Particle Container
|In1Qty=2
|In2=Iron Ingot
|In2Qty=2
|In3=Deuterium
|In3Qty=10
}}
}}
|-
{{ProductionChain
|Building=Assembler
|Replicator=Yes
|Technology=Plasma Turret
|Recipe=
{{ItemRecipe
|Out1=Plasma Capsule
|Out1Qty=1
|CraftTime=2 s
|In1=Graphene
|In1Qty=1
|In2=Magnet
|In2Qty=2
|In3=Deuterium
|In3Qty=10
}}
}}
|}


==Player Tips & Tricks==
==Player Tips & Tricks==
*Using [[Fractionator|Fractionators]] to produce Deuterium is roughly 2.5 times more energy efficient (using [[Conveyor Belt Mk.III|Mk.III Conveyor Belts]]) than [[Miniature Particle Collider|Particle Colliders]]. It takes more space to set up but works in a simple loop (with a buffer liquid storage slowly refilled with Hydrogen). A Fractionator processing Hydrogen piled four times using the [[Automatic Piler]] consumes 1.375 times as much energy per Deuterium as a normal Fractionator, with throughput closer to the Particle Collider's Deuterium production, and it can be a middle ground on energy usage and space while retaining the 1:1 Hydrogen to Deuterium conversion.
{| class="wikitable"
|+ Comparative Data
|-
! Units !! Fractionator !! Particle Collider !! Fractionator 4-stack
|-
| kW (kJ/s) || 720 || 12000 || 3960
|-
| Deuterium /s|| 0.3 || 2 || 1.2
|-
| kJ per Deuterium || 2400 || 6000 || 3300
|}



{{Item Navbox}}
[[Category:Item]]
[[Category:Item]]
[[Category:Components]]
[[Category:Material]]
[[Category:Natural Resource]]
[[Category:Crafting Material]]
[[Category:Fuel]]

Latest revision as of 20:35, 19 January 2024

Deuterium
Material, Fuel
A stable isotope of hydrogen. Rarely exists under natural conditions. Most of them come from the reprocessing of hydrogen and the collection from the Gas Giant.
Fuel TypeChemical
Energy9.00 MJ
Fuel Chamber Gen.+100%
Made InFractionator, Particle Collider
Cannot make in replicator
Gathered FromGas Giant Orbit
Stack Size20
5
2.5 s
10
1
1%
1
1
?

Summary

Deuterium is stable heavier isotope of Hydrogen. Rarely exists under natural conditions. Most comes from the reprocessing of hydrogen and collection from Gas Giants via Orbital Collectors.

Production Chain

Recipe Building Replicator? Technology
1
1 %
1
5
2.5 s
10
1
?
 ⛏️

Production Progression Chart

For more information on reading and using these charts, see Production Progression Chart.
Click here to show or hide the Production Progression Charts.
Critical Photon-based production
Stage 1 Stage 2 Stage 3
2
2
2
2
2
Fire Ice-based production
Stage 1 Stage 2 Stage 3
2
1
2
1
2
Crude Oil-based production
Stage 1 Stage 2 Stage 3 Stage 4
2
1
2
3
2
3
2

Note: Hydrogen created during Crude Oil-based production must be recycled through the system to ensure full efficiency. Final stage quantities are remaining surplus available for distribution.

Used In

Recipe Building Replicator? Technology
2
12 s
1
20
1
1
8 s
2
2
10
1
2 s
1
2
10

Player Tips & Tricks

  • Using Fractionators to produce Deuterium is roughly 2.5 times more energy efficient (using Mk.III Conveyor Belts) than Particle Colliders. It takes more space to set up but works in a simple loop (with a buffer liquid storage slowly refilled with Hydrogen). A Fractionator processing Hydrogen piled four times using the Automatic Piler consumes 1.375 times as much energy per Deuterium as a normal Fractionator, with throughput closer to the Particle Collider's Deuterium production, and it can be a middle ground on energy usage and space while retaining the 1:1 Hydrogen to Deuterium conversion.
Comparative Data
Units Fractionator Particle Collider Fractionator 4-stack
kW (kJ/s) 720 12000 3960
Deuterium /s 0.3 2 1.2
kJ per Deuterium 2400 6000 3300


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