Difference between revisions of "Refinery"

Revision as of 20:07, 16 July 2020 (view source) SimpleGopnik (talk | contribs) m (Updated the page with basic refinery instead of arc refinery.) ← Older edit		Latest revision as of 11:08, 16 January 2021 (view source) Vox Serico (talk | contribs) m (→‎Refining Rates: Simplified the formulas)
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	:Based on game data file content.		:Based on game data file content.
−	:Kilogram ore consumed per second = [[Property:Mass|Ore Mass]] / ([[Property:RefineTime|Ore RefineTime]] / [[Property:RefineSpeed|Refinery Speed]])	+	:Kilogram ore consumed per second = [[Property:RefineSpeed|Refinery Speed]] × [[Property:Mass|Ore Mass]] ÷ [[Property:RefineTime|Ore RefineTime]]
−	:Kilogram ingots produced per second = [[Property:RefineAmount|Refined Mass]] / ([[Property:RefineTime|Ore RefineTime]] / [[Property:RefineSpeed|Refinery Speed]]) * [[Property:MaterialEfficiency|Refinery Efficiency]]	+	:Kilogram ingots produced per second = [[Property:RefineSpeed|Refinery Speed]] × [[Property:RefineAmount|Refined Mass]] × [[Property:MaterialEfficiency|Refinery Efficiency]] ÷ [[Property:RefineTime|Ore RefineTime]]
	== Upgrade Modules ==		== Upgrade Modules ==

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Latest revision as of 11:08, 16 January 2021

Overview

The Refinery is a functional Block available for Large Ships and Stations, used to process raw Ores into useful Materials. If connected to a Conveyor Network via one of the inventory access points, the Refinery can automatically pull in Ores from attached inventories to process, and any attached Assemblers can pull refined Materials from the Refinery as needed. Unlike the Basic Refinery, the Refinery is capable of refining all ore types in the game, with the exception of Ice, which must be processed inside an Oxygen Generator. Both of its ore and ingot inventories hold 7,500 L

7.5 m³
750 hL

each.

Usage

Each Ore once mined from an ore vein from an Asteroid, Moon, or Planet is in a very impure form that is mixed up with other elements and contaminated with impurities not suited for fashioning into useful Components, the Refinery for lack of a better word Refines the ores into their pure forms much like Smelting. Since the Ores are riddled with impurities most of the Ore will be processed away leaving behind only the base element. Each type of ore has their own ratio of impurities and the time necessary to remove.

Efficiency

In addition to this every type of Refiner (Refinery, Basic Refinery) also has their own ore efficiency ratio and refining speed. The factors in determining the yield of any given quantity of ores being turned into useful materials is as follows:

Materials Produced == Ore × (RefineryEfficiency × 1.0905077 ^ YieldModules)

Ore                = the specific Ore's Material Efficiency (Ore-Ingot Ratio)
RefineryEfficiency = the refiner's Material Efficiency (which for the Refinery is 1)
YieldModules       = the amount of attachment point connected Yield Modules,
                     each module fills 2 attachment ports - so provides 2 each.

Using this we can estimate the yield of 50 kg of Nickel Ore to come out to 20 kg of processed Nickel Ingot, since:

50 kg of Nickel Ore × 0.4 (the ore's efficiency) × 1 (the refinery's base efficiency) = 20 kg of Nickel Ingots

Refining Rates

Ore	Processing Time	Combined Efficiency	Consumption	Production	Production Time	Result
Cobalt Ore	2.308 s/kg	30%	0.433 kg/s	0.13 kg/s	7.692 s/kg	Cobalt Ingot
Gold Ore	0.308 s/kg	1%	3.25 kg/s	0.033 kg/s	30.769 s/kg	Gold Ingot
Iron Ore	0.038 s/kg	70%	26 kg/s	18.2 kg/s	0.055 s/kg	Iron Ingot
Magnesium Ore	0.385 s/kg	0.7%	2.6 kg/s	0.018 kg/s	54.945 s/kg	Magnesium Powder
Nickel Ore	0.508 s/kg	40%	1.97 kg/s	0.788 kg/s	1.269 s/kg	Nickel Ingot
Platinum Ore	2.308 s/kg	0.5%	0.433 kg/s	0.002 kg/s	461.538 s/kg	Platinum Ingot
Scrap Metal	0.031 s/kg	80%	32.5 kg/s	26 kg/s	0.038 s/kg	Iron Ingot
Silicon Ore	0.462 s/kg	70%	2.167 kg/s	1.517 kg/s	0.659 s/kg	Silicon Wafer
Silver Ore	0.769 s/kg	10%	1.3 kg/s	0.13 kg/s	7.692 s/kg	Silver Ingot
Stone	0.008 s/kg	5.04%	130 kg/s	6.552 kg/s	0.153 s/kg	Gravel  Iron Ingot  Nickel Ingot  Silicon Wafer
Uranium Ore	3.077 s/kg	1%	0.325 kg/s	0.003 kg/s	307.692 s/kg	Uranium Ingot

Based on game data file content.

Kilogram ore consumed per second = Refinery Speed × Ore Mass ÷ Ore RefineTime

Kilogram ingots produced per second = Refinery Speed × Refined Mass × Refinery Efficiency ÷ Ore RefineTime

Upgrade Modules

A Refinery starts with 100% in all categories. When you add modules, the Refinery's Control Panel will show the adjusted percentages. The Refinery block itself has eight attachment points for modules, all on the flat grey side. Each module can occupy up to two attachment points.

There are three types of upgrade module for Refineries:

Power Efficiency modules

Improves the Refinery's power efficiency by about 22%, Multiplicative, for each attachment point.

For 1 attachment slot

560 kW

560,000 W
0.56 MW

/ 1.2228445 ^ 1 ≈ 458 kW

For all 8 slots

560 kW

560,000 W
0.56 MW

/ 1.2228445 ^ 8 ≈ 112 kW

Yield modules

Increase the number of ingots you get for a given quantity of ore. This also has the effect of producing ingots faster. It does not affect ore consumption rate, nor does it affect power consumption.

Effectiveness modules increase Material Efficiency by about 9% per attachment point. Their influence is cumulative, so three attachment points give 1.09 ^ 3 = 1.3 times the efficiency (30% bonus rather than 27%). Filling all eight will yield a 100% bonus. This means that maximizing Effectiveness will generate twice as many ingots from a given volume of ore.

Note however that a refinery cannot produce more ingots than it consumes ore. For iron, the conversion is already 70% mass-efficient. Maximum Effectiveness would give us a theoretical yield of 0.7 x (0.8 x 2) = 1.12 ie. 1kg of ore would become 1.12kg of ingots, but the refinery cannot produce more ingots than there is ore (as this would be creating matter). For most ores this isn't an issue though.

Speed modules

Increase the speed at which ore gets converted into ingots, and increases power consumption.

Productivity modules add 50% to the Productivity stat for each attachment point occupied, giving a maximum of 400% achievable with 4 modules filling all points. This does not yield 5 times the refinement speed, however. A Refinery has a base refining speed of 1.3 and productivity gains are added to this at a rate of 0.5 per attachment point, so the actual speed can be calculated as:

p = number of Productivity attachment points (0 to 8)
Productivity shown in control panel = 100% + (p*50%)
base speed = 1.3
actual refining speed = 1.3 + (p/2)
observed speed increase = p*38.46%

So the maximum Productivity boost actually yields about 4 times the base refining speed, rather than 5 times.

Combined effect

spd = Speed attachment points
pow = Power Efficiency attachment points
eff = Effectiveness module attachment points

Power modifier         = (1+0.5*spd)/(1.2228445^pow)
Effectiveness modifier = 1.0905077 ^ eff
Production modifier    = 0.5*spd

Media

Tips

• It's far more efficient to have an Arc Furnace refine your iron than the refinery. The Arc Furnace was repurposed in v1.189 to the Basic Refinery.
• Power efficiency modules are better than you think, when your refinery is running 24/7, this can save tons of power!

Known Issues

• Refineries use system resources when they process, so having tons of them in a small confined area can slightly affect performance. Still present as of Update 01.111
• Refineries don't discriminate between different types of ores, so your refinery may be wasting time on stone instead of more valuable ores. A good way to address this is with the Programmable Block and a Refinery script from the Steam Workshop, or use a Conveyor Sorter.

See also

• Basic Refinery
• Assembler
• Oxygen Generator
• Power Efficiency Upgrade Module
• Productivity Upgrade Module
• Effectiveness Upgrade Module

Programming

• Action List - Refinery

Update History