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Extractors
Icon Name CPU Powergrid Attributes Base Price
Barren Aqueous Liquid Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Barren)
45.000
Barren Base Metals Extractor
Surface mining is a common and effective practice that dates back to early planetary settlement. The process involves stripping a planet's surface layer until the ore buried beneath is exposed. At this point, the ore can be more easily extracted. Surface mines are typically quite shallow and are built in areas where the surface material covering the valuable deposits is relatively thin. For this reason, surface mines are sometimes built on the ocean floor.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Base Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Barren)
45.000
Barren Carbon Compounds Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefitting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of micro-organisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Carbon Compounds
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Barren)
45.000
Barren Microorganisms Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefiting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of microorganisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Microorganisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Barren)
45.000
Barren Noble Metals Extractor
Surface mining is a common and effective practice that dates back to early planetary settlement. The process involves stripping a planet's surface layer until the ore buried beneath is exposed. At this point, the ore can be more easily extracted. Surface mines are typically quite shallow and are built in areas where the surface material covering the valuable deposits is relatively thin. For this reason, surface mines are sometimes built on the ocean floor.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Noble Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Barren)
45.000
Gas Aqueous Liquid Extractor
Extracting gas from a gas giant requires more effort than simply opening a door into a container. Each specific type of desirable gas requires an ionized filament to be calibrated to attract only the right particles from the atmosphere. Even a fraction of a percent error could spoil an entire batch of product by tainting it with unwanted material. Likewise, once the gas is extracted from the surrounding air, the platform's equilibrium tanks must be adjusted to compensate for the added weight or buoyancy. Beyond that, it's a simple matter of supercooling it and transferring the liquid form into a container for transport. As one pioneer of this technology accurately described it, “The extractor itself is much like a living organism, breathing in what it needs and expelling that which becomes cumbersome.”
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Gas)
45.000
Gas Base Metals Extractor
Custom-built gas extractors were first developed to take advantage of gas giant settlements and represented the most lucrative long-term development of such unique worlds. These enormous extraction units, when carefully lowered to the proper altitude on gas giant planets, provide a cost-effective way of acquiring rare and high-demand resources, such as noble and reactive gases and suspended plasma. The proliferation of gas giant settlement in recent years has drastically lowered the price of these base materials, which in turn has seen increased productivity in the numerous planetside and spacebound industries built around these valuable commodities.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Base Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Gas)
45.000
Gas Ionic Solutions Extractor
Extracting gas from a gas giant requires more effort than simply opening a door into a container. Each specific type of desirable gas requires an ionized filament to be calibrated to attract only the right particles from the atmosphere. Even a fraction of a percent error could spoil an entire batch of product by tainting it with unwanted material. Likewise, once the gas is extracted from the surrounding air, the platform's equilibrium tanks must be adjusted to compensate for the added weight or buoyancy. Beyond that, it's a simple matter of supercooling it and transferring the liquid form into a container for transport. As one pioneer of this technology accurately described it, “The extractor itself is much like a living organism, breathing in what it needs and expelling that which becomes cumbersome.”
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Ionic Solutions
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Gas)
45.000
Gas Noble Gas Extractor
Custom-built gas extractors were first developed to take advantage of gas giant settlements and represented the most lucrative long-term development of such unique worlds. These enormous extraction units, when carefully lowered to the proper altitude on gas giant planets, provide a cost-effective way of acquiring rare and high-demand resources, such as noble and reactive gases and suspended plasma. The proliferation of gas giant settlement in recent years has drastically lowered the price of these base materials, which in turn has seen increased productivity in the numerous planetside and spacebound industries built around these valuable commodities.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Noble Gas
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Gas)
45.000
Gas Reactive Gas Extractor
Custom-built gas extractors were first developed to take advantage of gas giant settlements and represented the most lucrative long-term development of such unique worlds. These enormous extraction units, when carefully lowered to the proper altitude on gas giant planets, provide a cost-effective way of acquiring rare and high-demand resources, such as noble and reactive gases and suspended plasma. The proliferation of gas giant settlement in recent years has drastically lowered the price of these base materials, which in turn has seen increased productivity in the numerous planetside and spacebound industries built around these valuable commodities.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Reactive Gas
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Gas)
45.000
Ice Aqueous Liquid Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Ice)
45.000
Ice Heavy Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Heavy Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Ice)
45.000
Ice Microorganisms Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefiting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of microorganisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Microorganisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Ice)
45.000
Ice Noble Gas Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Noble Gas
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Ice)
45.000
Ice Planktic Colonies Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefitting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of micro-organisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Planktic Colonies
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Ice)
45.000
Lava Base Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Base Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Lava)
45.000
Lava Felsic Magma Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Felsic Magma
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Lava)
45.000
Lava Heavy Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Heavy Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Lava)
45.000
Lava Non-CS Crystals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Non-CS Crystals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Lava)
45.000
Lava Suspended Plasma Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Suspended Plasma
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Lava)
45.000
Oceanic Aqueous Liquid Extractor
This underwater platform and extendable extraction arms are capable of scouring the ocean floor for valuable materials and bringing them to the surface for transportation to processing facilities. A small habitation module serves as living and operation quarters for the human administration and maintenance crew, along with emergency surfacing capsules in the case of a seismic event or breach of the building's integrity.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Oceanic)
45.000
Oceanic Carbon Compounds Extractor
This underwater platform and extendable extraction arms are capable of scouring the ocean floor for valuable materials and bringing them to the surface for transportation to processing facilities. A small habitation module serves as living and operation quarters for the human administration and maintenance crew, along with emergency surfacing capsules in the case of a seismic event or breach of the building's integrity.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Carbon Compounds
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Oceanic)
45.000
Oceanic Complex Organisms Extractor
Centuries of aquatic life and plant growth typically blanket ocean worlds' floors with a thick layer of valuable biomass. When properly cultivated, harvested, and refined, the applications of such material range anywhere from food production and medical application to more esoteric functions, such as genetic enhancements and super-resilient textiles. The facility itself includes both a processing plant, which filters and compresses the material; and a roving collector, which is little more than a series of churning scoops and a powerful pumping mechanism connected to the facility via flexible conduit.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Complex Organisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Oceanic)
45.000
Oceanic Microorganisms Extractor
Centuries of aquatic life and plant growth typically blanket ocean worlds' floors with a thick layer of valuable biomass. When properly cultivated, harvested, and refined, the applications of such material range anywhere from food production and medical application to more esoteric functions, such as genetic enhancements and super-resilient textiles. The facility itself includes both a processing plant, which filters and compresses the material; and a roving collector, which is little more than a series of churning scoops and a powerful pumping mechanism connected to the facility via flexible conduit.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Microorganisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Oceanic)
45.000
Oceanic Planktic Colonies Extractor
Centuries of aquatic life and plant growth typically blanket ocean worlds' floors with a thick layer of valuable biomass. When properly cultivated, harvested, and refined, the applications of such material range anywhere from food production and medical application to more esoteric functions, such as genetic enhancements and super-resilient textiles. The facility itself includes both a processing plant, which filters and compresses the material; and a roving collector, which is little more than a series of churning scoops and a powerful pumping mechanism connected to the facility via flexible conduit.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Planktic Colonies
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Oceanic)
45.000
Plasma Base Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Base Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Plasma)
45.000
Plasma Heavy Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Heavy Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Plasma)
45.000
Plasma Noble Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Noble Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Plasma)
45.000
Plasma Non-CS Crystals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Non-CS Crystals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Plasma)
45.000
Plasma Suspended Plasma Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Suspended Plasma
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Plasma)
45.000
Storm Aqueous Liquid Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Storm)
45.000
Storm Base Metals Extractor
This facility consists of seismic insulated platforms and heavy, jointed conveyor belts leading into deep tunnels. Extremophile drones, built to function in even corrosive, intemperate, and high- or low-pressure atmospheres, run a constant circuit along the belts, performing repairs and clearing away rubble. A staff of mining experts and technicians occupy the main building in case any of the automated systems fail.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Base Metals
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Storm)
45.000
Storm Ionic Solutions Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Ionic Solutions
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Storm)
45.000
Storm Noble Gas Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Noble Gas
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Storm)
45.000
Storm Suspended Plasma Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Suspended Plasma
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Storm)
45.000
Temperate Aqueous Liquid Extractor
Finding desired liquids on hostile worlds can be almost as challenging a task as extracting it from the unforgiving environment, which often entails drilling kilometers below the surface or condensing fluids from the upper atmosphere. Once the liquids are discovered, the facility itself begins the relatively simple task of separating it from the ambient plasma interference, scalding magma streams, or potentially infectious indigenous bacteria. A surprising amount of valuable liquids can be extracted from hostile worlds, but only if the equipment is properly calibrated and carefully maintained.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Aqueous Liquids
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Temperate)
45.000
Temperate Autotrophs Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefitting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of micro-organisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Autotrophs
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Temperate)
45.000
Temperate Carbon Compounds Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefitting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of micro-organisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Carbon Compounds
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Temperate)
45.000
Temperate Complex Organisms Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefitting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of micro-organisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Complex Organisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Temperate)
45.000
Temperate Microorganisms Extractor
Modular biomass cultivators have been the mainstay of low-cost micro-agriculture for centuries. As a result, these facilities have proliferated across many planetary settlements. These adaptable micro-ponds allow communities to alter their cultivators to take advantage of local environments, benefiting optimally from the unique bacterial makeup of local water supplies. Although traditional farming methods remain competitive on terrestrial planets, the production of microorganisms is most efficient when handled by a custom biomass cultivator.
200 800 extractorDepletionRange = 5.0 m
extractorDepletionRate = 1
Harvested Type = Microorganisms
Cycle Time = 5 min
Extraction Quantity = 1000
Planet Type Restriction = Planet (Temperate)
45.000

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Database: Invasion 2 (2019-11-26)

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