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Produces kinetic ammunition from a 9:1 ratio of iron to vanadium. | Produces kinetic ammunition from a 9:1 ratio of iron to vanadium. | ||
Produces nanodrone components from a 4:1 ratio of iron to platinum. | Produces nanodrone components from a 4:1 ratio of iron to platinum. | ||
[[Category:Equipment]] |
Revision as of 20:33, 10 August 2023
There are a number of modifications that can be installed in the Cargo Bay
Cargo bay baffles
Price: 2,000 E$
These spring-mounted cargo bay baffles prevent accidental loss of cargo during deceleration.
User Manual
These spring-mounted cargo bay baffles prevent accidental loss of cargo during deceleration.
Rusatom-Antonoff MPU
Price: 350,000 E$
Processing capacity: 20 kg/s Power draw: 2 MW / chunk Mineral processing efficiency: 40% Remass processing efficiency: 40% Mass: 1,700 kg Manufacturer: Rusatom-Antonoff
The Rusatom-Antonoff Mineral Processing Unit uses reactor heat to sublimate water content out of a large cargo volume, so that mineral content can be collected and stored. Evaporated water is collected via a cryo-ring, and can be reprocessed into propellant. This MPU boasts minimal power consumption and excellent processing reach, but the heating process is inefficient, and much of the cargo and water is lost during processing.
User Manual
Converts ore chunks into processed ore. Replenishes propellant. Requires ore to be in the processing chamber. Processes multiple ore chunks simultaneously. Power requirements and processing speed listed per chunk. Processed ore stored in separate containers, with capacity limited per mineral type.
Nakamura MPU
Price: 500,000 E$
Processing capacity: 50 kg/s Power draw: 25 MW / chunk Mineral processing efficiency: 70% Remass processing efficiency: 30% Mass: 4,200 kg Manufacturer: Nakamura Dynamics
Nakamura Dynamics' Mineral Processing Unit uses microwaves to sublimate the ice out of cargo and stores it in compact containers. Evaporated water is collected via a cryo-ring, and can be reprocessed into propellant.
User Manual
Converts ore chunks into processed ore. Replenishes propellant. Requires ore to be in the processing chamber. Processes multiple ore chunks simultaneously. Power requirements and processing speed listed per chunk. Processed ore stored in separate containers, with capacity limited per mineral type.
Mitsudaya-Starbus MSU
Price: 900,000 E$
Processing capacity: 100 kg/s Power draw: 150 MW / chunk Mineral processing efficiency: 90% Remass processing efficiency: n/a Mass: 2,500 kg Manufacturer: Mitsudaya-Starbus
The Mitsudaya-Starbus Mineral Smelting Unit is made for efficient mineral processing, regardless of the energy cost. It uses a combination of laser-cutting and directed microwave beams to efficiently disassemble any mineral chunk. Remass recovery is not available in this unit.
User Manual
Converts ore chunks into processed ore. Requires ore to be in the processing chamber. Processes multiple ore chunks simultaneously. Power requirements and processing speed listed per chunk. Processed ore stored in separate containers, with capacity limited per mineral type.
Voyager RSLS Fabrication Plant
Price: 1,500,000 E$
Processing capacity: 40 kg/s Power draw: 20 MW / chunk Print power draw: 70 MW Printing capability: drones, ammunition Mineral processing efficiency: 50% Remass processing efficiency: 60% Mass: 6,000 kg Manufacturer: Nakamura-Obonto
Designed for long range research vessels, the Voyager fabricator sacrifices cargo space to fit a fabricator inside the cargo bay, with a series of cryo-rings providing excellent propellant reclamation. This combined Mineral Processing / Rapid Selective Laser Sintering Unit by Nakamura Dynamics and Obonto Micro Engineering can resupply vanadium-hardened iron ammunition, or disposable nanodrones that use a platinum mirror array in an iron frame.
User Manual
Converts ore chunks into processed ore. Replenishes propellant. Requires ore to be in the processing chamber. Processes multiple ore chunks simultaneously. Power requirements and processing speed listed per chunk. Processed ore stored in separate containers, with capacity limited per mineral type. Produces kinetic ammunition from a 9:1 ratio of iron to vanadium. Produces nanodrone components from a 4:1 ratio of iron to platinum.