Iron Ore and Planetary Logistics Station: Difference between pages

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==Summary==
==Summary==
'''Iron Ore''' is one of the core basic resources. Found commonly throughout the galaxy, it can be harvested and processed on almost any rocky planet. Iron is often used as a structural material, both its strength and ability to be alloyed with other materials making it useful in that regard.
You can find a tutorial on how the logistics stations work [[Logistics_Stations|here]].
 
It is mined with the [[Mining Machine]].
 
It is [[Smelter|smelted]] into [[Iron Ingot]]s and [[Magnet]]s.


==Production Chain==
==Production Chain==
{{ProductionChainTable/head}}
{{ProductionChainTable/head}}
{{ProductionChain
{{ProductionChain
|Building=Mining Machine
|Building=Assembler
|Replicator=Mine
|Replicator=Yes
|Technology=
|Technology=Planetary Logistics System
|Recipe=           
|Recipe=           
   {{ItemRecipe
   {{ItemRecipe
     |Out1=Iron Ore
     |Out1=Planetary Logistics Station
     |Out1Qty=1
     |Out1Qty=1
     |CraftTime=2 s
     |CraftTime=20 s
     |In1=Iron Ore Vein
     |In1=Steel
     |In1Qty=1
     |In1Qty=40
     }}
     |In2=Titanium Ingot
    |In2Qty=40
    |In3=Processor
    |In3Qty=40
    |In4=Particle Container
    |In4Qty=20
   }}
   }}
}}
|}
===Production Progression Chart===
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Unipolar Magnet-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
|-
| {{riq|Iron Ore|120}}
| {{riq|Iron Ingot|120}}
| {{riq|Steel|40}}
| {{ppc skip}}
|rowspan=8| {{riq|Planetary Logistics Station|1}}
|-
| {{riq|Titanium Ore|80}}
| {{riq|Titanium Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|320}}
| {{riq|High-Purity Silicon|160}}
|rowspan=2| {{riq|Microcrystalline Component|80}}
|rowspan=4| {{riq|Processor|40}}
|-
| {{riq|Copper Ore|80}}
| {{riq|Copper Ingot|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
|rowspan=2| {{riq|Circuit Board|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Unipolar Magnet|200}}
| {{ppc skip}}
|rowspan=2| {{riq|Particle Container|20}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|}
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Fire Ice-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
! Stage 7
|-
| {{riq|Iron Ore|120}}
| {{riq|Iron Ingot|120}}
| {{riq|Steel|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|rowspan=14| {{riq|Planetary Logistics Station|1}} {{riq|Hydrogen|20}}
|-
| {{riq|Titanium Ore|80}}
| {{riq|Titanium Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|320}}
| {{riq|High-Purity Silicon|160}}
|rowspan=2| {{riq|Microcrystalline Component|80}}
|rowspan=4| {{riq|Processor|40}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|80}}
| {{riq|Copper Ingot|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
|rowspan=2| {{riq|Circuit Board|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|160}}
| {{riq|Iron Ingot|160}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|80}}
|rowspan=6| {{riq|Electromagnetic Turbine|40}}
|rowspan=8| {{riq|Particle Container|20}} {{riq|Hydrogen|20}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
| {{riq|Gear|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Fire Ice|40}}
| {{riq|Graphene|40}} {{riq|Hydrogen|20}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|}
|}


===Production Upgrades===
{| class="wikitable" style="text-align:center; background-color:#0b161c
Each level of the [[Veins Utilization (Upgrade)|Veins Utilization]] [[Upgrades|upgrade]] increases the mining rate by a flat 10%, and reduces the consumption rate by a compounding 6%.
|+ Coal- and Sulfuric Acid-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
! Stage 7
|-
| {{riq|Iron Ore|120}}
| {{riq|Iron Ingot|120}}
| {{riq|Steel|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|rowspan=15| {{riq|Planetary Logistics Station|1}}
|-
| {{riq|Titanium Ore|80}}
| {{riq|Titanium Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|320}}
| {{riq|High-Purity Silicon|160}}
|rowspan=2| {{riq|Microcrystalline Component|80}}
|rowspan=4| {{riq|Processor|40}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|80}}
| {{riq|Copper Ingot|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
|rowspan=2| {{riq|Circuit Board|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|160}}
| {{riq|Iron Ingot|160}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|80}}
|rowspan=6| {{riq|Electromagnetic Turbine|40}}
|rowspan=9| {{riq|Particle Container|20}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
| {{riq|Gear|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Coal|120}}
| {{riq|Energetic Graphite|60}}
|rowspan=2| {{riq|Graphene|40}}
|rowspan=2| {{ppc skip}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|20}}
| {{ppc skip}}
|}


See [[Mining_Machine#Production_Upgrade|here]] for a table of veins required to fill Belts per level of Veins Utilization.
{| class="wikitable" style="text-align:center; background-color:#0b161c
|+ Crude Oil- and Sulfuric Acid-based production
! Stage 1
! Stage 2
! Stage 3
! Stage 4
! Stage 5
! Stage 6
! Stage 7
|-
| {{riq|Iron Ore|120}}
| {{riq|Iron Ingot|120}}
| {{riq|Steel|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|rowspan=15| {{riq|Planetary Logistics Station|1}} {{riq|Hydrogen|90}}
|-
| {{riq|Titanium Ore|80}}
| {{riq|Titanium Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Silicon Ore|320}}
| {{riq|High-Purity Silicon|160}}
|rowspan=2| {{riq|Microcrystalline Component|80}}
|rowspan=4| {{riq|Processor|40}}
|rowspan=4| {{ppc skip}}
|rowspan=4| {{ppc skip}}
|-
| {{riq|Copper Ore|80}}
| {{riq|Copper Ingot|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
|rowspan=2| {{riq|Circuit Board|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|160}}
| {{riq|Iron Ingot|160}}
| {{ppc skip}}
|rowspan=4| {{riq|Electric Motor|80}}
|rowspan=6| {{riq|Electromagnetic Turbine|40}}
|rowspan=9| {{riq|Particle Container|20}} {{riq|Hydrogen|90}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Iron Ingot|80}}
| {{riq|Gear|80}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Iron Ore|80}}
| {{riq|Magnet|80}}
|rowspan=2| {{riq|Magnetic Coil|80}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
|-
| {{riq|Copper Ore|40}}
| {{riq|Copper Ingot|40}}
| {{ppc skip}}
| {{ppc skip}}
| {{ppc skip}}
|-
| {{riq|Crude Oil|60}}
| {{riq|Refined Oil|60}} {{riq|Hydrogen|30}}
| {{riq|Energetic Graphite|60}} {{riq|Hydrogen|90}}
|rowspan=2| {{riq|Graphene|40}} {{riq|Hydrogen|90}}
|rowspan=2| {{ppc skip}}
|-
| {{riq|Sulfuric Acid|20}}
| {{ppc skip}}
| {{ppc skip}}
|}
'''Note:''' [[Hydrogen]] created during Crude Oil-based production must be recycled through the system to ensure full efficiency.  Hydrogen quantity shown in Stage 7 is remaining surplus Hydrogen which can be diverted elsewhere.


==Used In==
==Used In==
{{ProductionChainTable/head}}
{{ProductionChainTable/head}}
{{ProductionChain
{{ProductionChain
|Building=Smelter
|Building=Assembler
|Replicator=Yes
|Technology=Automatic Metallurgy
|Recipe=         
  {{ItemRecipe
    |Out1=Iron Ingot
    |Out1Qty=1
    |CraftTime=1 s
    |In1=Iron Ore
    |In1Qty=1
    }}
  }}
|-
{{ProductionChain
|Building=Smelter
|Replicator=Yes
|Replicator=Yes
|Technology=Automatic Metallurgy
|Technology=Interstellar Logistics System
|Recipe=           
|Recipe=           
   {{ItemRecipe
   {{ItemRecipe
     |Out1=Magnet
     |Out1=Interstellar Logistics Station
     |Out1Qty=1
     |Out1Qty=1
     |CraftTime=1.5 s
     |CraftTime=30 s
     |In1=Iron Ore
     |In1=Planetary Logistics Station
     |In1Qty=1
     |In1Qty=1
    |In2=Titanium Alloy
    |In2Qty=50
    |In3=Particle Container
    |In3Qty=20
     }}
     }}
   }}
   }}
Line 63: Line 346:


==Player Tips & Tricks==
==Player Tips & Tricks==
* Iron Ore is a root of a lot of higher-level recipes. Be sure to have plenty of it on hand.
* Each [[Planetary Logistics Station]] can host up to 50 [[Logistics Drone]]s.
* Power draw of the station is proportional to the amount of current energy loss. This means that at 0 J, the total max charging power will be utilized across the power grid, and the power draw proportionally decreases the more the energy is stored in the station.
**  At a max charging power of 12 MW, the station will draw 10.8 MW when it only has 18 MJ stored (12 MW * (180 MJ - 18 MJ)/180 MJ)
** At a max charging power of 12 MW, the station will draw 1.2 MW when it only has 162 MJ stored (12 MW * (180 MJ - 162 MJ)/180 MJ)
** Because of this, power draw is relatively low once the station is charged, but it can overload low power networks when first created.


==Historical==
Prior to Patch 0.6.15.5636, the recipe was {{ItemRecipe
|Out1=Planetary Logistics Station
|Out1Qty=1
|CraftTime=20 s
|In1=Steel
|In1Qty=50
|In2=Titanium Ingot
|In2Qty=50
|In3=Processor
|In3Qty=50
|In4=Particle Container
|In4Qty=20
}}


{{Item Navbox}}
[[Category:Item]]
[[Category:Item]]
[[Category:Natural Resource]]
[[Category:Building]]
[[Category:Logistics]]

Revision as of 03:21, 25 February 2021

Planetary Logistics Station
Logistics
The hub of the planetary logistics system, the logistics drones will automatically transport the cargo to the logistics station when you set the corresponding supply and demand.
Icon Planetary Logistics Station.png
Storage4 types
Max Charging Power60.0 MW
Idle Consumption60 kW
Accumulated180 MJ
Made InAssembler
Hand-MakeReplicator
Stack Size10
Icon Planetary Logistics Station.png
1
20 s
Icon Steel.png
40
Icon Titanium Ingot.png
40
Icon Processor.png
40
Icon Particle Container.png
20

Summary

You can find a tutorial on how the logistics stations work here.

Production Chain

Recipe Building Replicator? Technology
Icon Planetary Logistics Station.png
1
20 s
Icon Steel.png
40
Icon Titanium Ingot.png
40
Icon Processor.png
40
Icon Particle Container.png
20
 Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Planetary Logistics System.png

Production Progression Chart

Unipolar Magnet-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5
Icon Iron Ore.png
120
Icon Iron Ingot.png
120
Icon Steel.png
40
 White arrow right.svg
Icon Planetary Logistics Station.png
1
Icon Titanium Ore.png
80
Icon Titanium Ingot.png
40
 White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
320
Icon High-Purity Silicon.png
160
Icon Microcrystalline Component.png
80
Icon Processor.png
40
Icon Copper Ore.png
80
Icon Copper Ingot.png
80
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Circuit Board.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Unipolar Magnet.png
200
 White arrow right.svg
Icon Particle Container.png
20
 White arrow right.svg
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Fire Ice-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7
Icon Iron Ore.png
120
Icon Iron Ingot.png
120
Icon Steel.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Planetary Logistics Station.png
1
Icon Hydrogen.png
20
Icon Titanium Ore.png
80
Icon Titanium Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
320
Icon High-Purity Silicon.png
160
Icon Microcrystalline Component.png
80
Icon Processor.png
40
 White arrow right.svg White arrow right.svg
Icon Copper Ore.png
80
Icon Copper Ingot.png
80
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Circuit Board.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
160
Icon Iron Ingot.png
160
 White arrow right.svg
Icon Electric Motor.png
80
Icon Electromagnetic Turbine.png
40
Icon Particle Container.png
20
Icon Hydrogen.png
20
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Gear.png
80
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
 White arrow right.svg
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Fire Ice.png
40
Icon Graphene.png
40
Icon Hydrogen.png
20
 White arrow right.svg White arrow right.svg White arrow right.svg
Coal- and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7
Icon Iron Ore.png
120
Icon Iron Ingot.png
120
Icon Steel.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Planetary Logistics Station.png
1
Icon Titanium Ore.png
80
Icon Titanium Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
320
Icon High-Purity Silicon.png
160
Icon Microcrystalline Component.png
80
Icon Processor.png
40
 White arrow right.svg White arrow right.svg
Icon Copper Ore.png
80
Icon Copper Ingot.png
80
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Circuit Board.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
160
Icon Iron Ingot.png
160
 White arrow right.svg
Icon Electric Motor.png
80
Icon Electromagnetic Turbine.png
40
Icon Particle Container.png
20
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Gear.png
80
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
 White arrow right.svg
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Coal.png
120
Icon Energetic Graphite.png
60
Icon Graphene.png
40
 White arrow right.svg White arrow right.svg
Icon Sulfuric Acid.png
20
 White arrow right.svg
Crude Oil- and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3 Stage 4 Stage 5 Stage 6 Stage 7
Icon Iron Ore.png
120
Icon Iron Ingot.png
120
Icon Steel.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Planetary Logistics Station.png
1
Icon Hydrogen.png
90
Icon Titanium Ore.png
80
Icon Titanium Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg White arrow right.svg
Icon Silicon Ore.png
320
Icon High-Purity Silicon.png
160
Icon Microcrystalline Component.png
80
Icon Processor.png
40
 White arrow right.svg White arrow right.svg
Icon Copper Ore.png
80
Icon Copper Ingot.png
80
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Circuit Board.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
160
Icon Iron Ingot.png
160
 White arrow right.svg
Icon Electric Motor.png
80
Icon Electromagnetic Turbine.png
40
Icon Particle Container.png
20
Icon Hydrogen.png
90
Icon Iron Ore.png
80
Icon Iron Ingot.png
80
Icon Gear.png
80
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Iron Ore.png
80
Icon Magnet.png
80
Icon Magnetic Coil.png
80
 White arrow right.svg
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
Icon Copper Ore.png
40
Icon Copper Ingot.png
40
 White arrow right.svg White arrow right.svg White arrow right.svg
Icon Crude Oil.png
60
Icon Refined Oil.png
60
Icon Hydrogen.png
30
Icon Energetic Graphite.png
60
Icon Hydrogen.png
90
Icon Graphene.png
40
Icon Hydrogen.png
90
 White arrow right.svg
Icon Sulfuric Acid.png
20
 White arrow right.svg White arrow right.svg

Note: Hydrogen created during Crude Oil-based production must be recycled through the system to ensure full efficiency. Hydrogen quantity shown in Stage 7 is remaining surplus Hydrogen which can be diverted elsewhere.

Used In

Recipe Building Replicator? Technology
Icon Interstellar Logistics Station.png
1
30 s
Icon Planetary Logistics Station.png
1
Icon Titanium Alloy.png
50
Icon Particle Container.png
20
 Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Interstellar Logistics System.png

Player Tips & Tricks

  • Each Planetary Logistics Station can host up to 50 Logistics Drones.
  • Power draw of the station is proportional to the amount of current energy loss. This means that at 0 J, the total max charging power will be utilized across the power grid, and the power draw proportionally decreases the more the energy is stored in the station.
    • At a max charging power of 12 MW, the station will draw 10.8 MW when it only has 18 MJ stored (12 MW * (180 MJ - 18 MJ)/180 MJ)
    • At a max charging power of 12 MW, the station will draw 1.2 MW when it only has 162 MJ stored (12 MW * (180 MJ - 162 MJ)/180 MJ)
    • Because of this, power draw is relatively low once the station is charged, but it can overload low power networks when first created.

Historical

Prior to Patch 0.6.15.5636, the recipe was

Icon Planetary Logistics Station.png
1
20 s
Icon Steel.png
50
Icon Titanium Ingot.png
50
Icon Processor.png
50
Icon Particle Container.png
20
Retrieved from "https://dsp-wiki.com/index.php?title=Iron_Ore&oldid=3018"
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