Cargo Bay

From ΔV: Wiki

There are a number of modifications that can be installed in the Cargo Bay, one being a convenience feature, and four being material processing units (hereby referred by their acronym, MPUs). MPUs process ore chunks into a powdered form. allowing them to be stored internally as processed ore, removing their volume from the cargo bay, but at the cost of not converting the chunk into powder with the 100% efficiency of Enceladus. Most MPU models also provide remass recovery, allowing part of the water content of an ore chunk to be put into the propellant tank of the ship.

MPUs will not process anything that isn't an ore chunk or ringroid that enters the bay, regardless of their volatility or mineral content (lifepods, dead bodies, spent mass driver rounds, serenity torbernite crystals, etc.)

Additionally, an MPU can have their processing speed tuned by ±50%, with a nonlinear tradeoff in the efficiencies of remass and ore recovery, alongside power consumption. A slower process will increase ore recovery efficiency while decreasing remass efficiency, with the vice versa producing a higher remass efficiency with a faster process.

The galleries for the MPUs will have the roughly-approximate processing areas marked in red. Any ore chunks in these areas will be processed.

Bare Bay Upgrades

Cargo bay baffles

Price: 2,000 E$

Mass: 400 kg

These spring-mounted cargo bay baffles prevent accidental loss of cargo during deceleration.

Springed baffles open inwards only, but may be held open by objects when the bay is very full. Some of the very wide or odd excavator designs host a solid barrier instead of baffles.

User Manual

These spring-mounted cargo bay baffles prevent accidental loss of cargo during deceleration.

Gallery

Baffled Cargo Bays
Ship Baffles Baffles (alt) Notes
K37 K37 baffles.png
KR37 KR37 baffles.png
KTA24 KTA24 baffles.png
KX37 KX37 baffles.png
K44 K44 baffles.png
Kitsune Kitsune baffles extended.png Kitsune baffles retracted.png
Cothon-212 Cothon-212 baffles.png Same shape in the Cothon-213 and Cothon-217 due to identical cargo bay layouts.
Cothon-211 Cothon-211 baffles.png
OCP-209 OCP baffles.png Unique hold and excavator layouts take a fixed barrier in place of baffles
AT-K225 K225 baffles.png Same shape in the AT-K225 (modified) due to an identical cargo bay layout.
AT-K225-BB K225-BB baffles.png
Eagle Prospector Eagle baffles.png Same shape in the Peacock Prospector due to identical cargo bay layout.
Pelican Prospector Pelican baffles.png
Vulture Prospector Vulture baffles.png
Bald Eagle Bald baffles.png
Elon Interstellar Model E EIME baffles.png EIME baffles open.png Unique hold and excavator layouts take a fixed barrier in place of baffles

Mineral Processing Units (MPUs)

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.
RA MPU Processing Efficiencies
Processing Speed (kg/s) Power Draw (MW) Mineral Processing Efficiency (%) Remass Processing Efficiency (%)
10 1 63.2 25.3
15 1 50.3 31.8
20 (default) 2 40.0 40.0
25 2 31.8 50.3
30 4 25.3 63.2
RA MPU Gallery
Ship RA MPU RA MPU (alt) Notes
K37 K37 RA.png
KR37 KR37 RA.png
KTA24 KTA24 RA.png
KX37 KX37 RA.png
K44 K44 RA.png
Kitsune Kitsune RA extended.png Kitsune RA retracted.png
Cothon-212 Cothon-212 RA.png Same shape in the Cothon-213 and Cothon-217 due to identical cargo bay layouts.
Cothon-211 Cothon-211 RA.png
OCP-209 OCP RA.png Wide bay makes majority of the huge cargo hold accessible to the MPU
AT-K225 K225 RA.png Same shape in the AT-K225 (modified) due to an identical cargo bay layout.
AT-K225-BB K225-BB RA.png
Eagle Prospector Eagle RA.png Same shape in the Peacock Prospector due to identical cargo bay layout.
Pelican Prospector Pelican RA.png
Vulture Prospector Vulture RA.png
Bald Eagle Bald RA.png
Elon Interstellar Model E EIME RA.png EIME RA open.png

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.
Nakamura MPU Processing Efficiencies
Processing Speed (kg/s) Power Draw (MW) Mineral Processing Efficiency (%) Remass Processing Efficiency (%)
25 19 83.7 16.4
38 21 76.3 22.5
50 (default) 25 70.0 30.0
62 34 64.3 40.1
75 59 58.6 54.8
Nakamura MPU Gallery
Ship Nakamura MPU Nakamura MPU (alt) Notes
K37 K37 Nakamura.png
KR37 KR37 Nakamura.png
KTA24 KTA24 Nakamura.png
KX37 KX37 Nakamura.png
K44 K44 Nakamura.png
Kitsune Kitsune Nakamura extended.png Kitsune Nakamura retracted.png
Cothon-212 Cothon-212 Nakamura.png Same shape in the Cothon-213 and Cothon-217 due to identical cargo bay layouts.
Cothon-211 Cothon-211 Nakamura.png
OCP-209 OCP Nakamura.png
AT-K225 K225 Nakamura.png Same shape in the AT-K225 (modified) due to an identical cargo bay layout.
AT-K225-BB K225-BB Nakamura.png
Eagle Prospector Eagle Nakamura.png Same shape in the Peacock Prospector due to identical cargo bay layout.
Pelican Prospector Pelican Nakamura.png
Vulture Prospector Vulture Nakamura.png
Bald Eagle Bald Nakamura.png
Elon Interstellar Model E EIME Nakamura.png EIME Nakamura open.png

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.
MS MSU Processing Efficiencies
Processing Speed (kg/s) Power Draw (MW) Mineral Processing Efficiency (%) Remass Processing Efficiency (%)
50 120 94.9 N/A
75 125 92.4 N/A
100 (default) 150 90.0 N/A
125 209 87.7 N/A
150 360 85.4 N/A
MS MSU Gallery
Ship MS MSU MS MSU (alt) Notes
K37 K37 MSU.png
KR37 KR37 MSU.png
KTA24 KTA24 MSU.png
KX37 KX37 MSU.png
K44 K44 MSU.png
Kitsune Kitsune MSU extended.png Kitsune MSU retracted.png
Cothon-212 Cothon-212 MSU.png Same shape in the Cothon-213 and Cothon-217 due to identical cargo bay layouts.
Cothon-211 Cothon-211 MSU.png
OCP-209 OCP MSU.png
AT-K225 K225 MSU.png Same shape in the AT-K225 (modified) due to an identical cargo bay layout.
AT-K225-BB K225-BB MSU.png
Eagle Prospector Eagle MSU.png Same shape in the Peacock Prospector due to identical cargo bay layout.
Pelican Prospector Pelican MSU.png
Vulture Prospector Vulture MSU.png
Bald Eagle Bald MSU.png
Elon Interstellar Model E EIME MSU.png EIME MSU open.png

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.
Voyager RSLS MPU Processing Efficiencies
Processing Speed (kg/s) Power Draw (MW) Mineral Processing Efficiency (%) Remass Processing Efficiency (%)
20 15 70.7 46.5
30 16 59.5 52.8
40 (default) 20 50.0 60.0
50 27 42.0 68.2
60 47 35.4 77.5
Voyager RSLS MPU Gallery
Ship Voyager RSLS MPU Voyager RSLS MPU (alt) Notes
K37 K37 RSLS.png
KR37 KR37 RSLS.png
KTA24 KTA24 RSLS.png
KX37 KX37 RSLS.png
K44 K44 RSLS.png
Kitsune Kitsune RSLS extended.png Kitsune RSLS retracted.png
Cothon-212 Cothon-212 RSLS.png Same shape in the Cothon-213 and Cothon-217 due to identical cargo bay layouts.
Cothon-211 Cothon-211 RSLS.png
OCP-209 OCP RSLS.png
AT-K225 K225 RSLS.png Same shape in the AT-K225 (modified) due to an identical cargo bay layout.
AT-K225-BB K225-BB RSLS.png
Eagle Prospector Eagle RSLS.png Same shape in the Peacock Prospector due to identical cargo bay layout.
Pelican Prospector Pelican RSLS.png
Vulture Prospector Vulture RSLS.png
Bald Eagle Bald RSLS.png
Elon Interstellar Model E EIME RSLS.png EIME RSLS open.png

Tuning

The cargo bay also has the option to adjust the internal microseismic scanner's focus from -100 to 100 units in sets of 10. This adjusts the side and quality that the bay is scanned. The default focus of 0 covers the entire bay with a decent scanning resolution, a focus of 100 or -100 will cover the top or bottom (respectively) quarters of the bay with a very high resolution. Values inbetween will have the resolution skewed between the top and bottom of the bay.

Resolutions
Cargo Bay Microseismic Tune to -100.png Cargo Bay Microseismic Tune to -50.png Cargo Bay Microseismic Tune to 0.png Cargo Bay Microseismic Tune to 50.png Cargo Bay Microseismic Tune to 100.png
Focus of -100 Focus of -50 Focus of 0 Focus of 50 Focus of 100