Loki Core - Augmented Nuclear Reactor
Market group: Ship and Module Modifications > Subsystems > Minmatar Subsystems > Minmatar Core Subsystems
Inventory group: Subsystem > Core Subsystem
Traits
Type Bonuses
Minmatar Core Systems bonuses per level
- 5 % bonus to capacitor recharge time
- 3 % bonus to energy warfare resistance
Role Bonuses
- 20 % bonus to ship power output
- Additional Base Stats
- +1 Mid Slot, +3 Low Slots
- +50GJ Capacitor Capacity
Variations
| Type | ||
|---|---|---|
| Loki Core - Dissolution Sequencer | Tech III | |
| Loki Core - Augmented Nuclear Reactor | Tech III | |
| Loki Core - Immobility Drivers | Tech III |
Market
Basic
- Mass:
- 1,200,000 kg
- Packaged volume:
- 40 m3
- Portion size:
- 1
Tech Level: - 3
Meta Level: - 1
Structure Hitpoints: - 40 HP
Capacity: - 0 m3
- Volume:
- 40 m3
Mass: - 1,200,000 kg
radius: - 1 m
Cargo
- Capacity:
- 0 m3
Required Skills
Capacitor
Capacitor Capacity: - 50 GJ
Structure
- Structure Hitpoints:
- 40 HP
Reprocessing
- Portion size:
- 1
| Output | Quantity |
|---|---|
| Optimized Nano-Engines | 7 |
| Fullerene Intercalated Sheets | 1 |
| Metallofullerene Plating | 1 |
| Neurovisual Output Analyzer | 1 |
| Nanowire Composites | 1 |
| Fulleroferrocene Power Conduits | 1 |
Basic reprocessing, not accounting for skills and other bonuses.
Manufacturing
Industry
Adam4Eve Material InfluenceOther
Power Output Bonus: - 20 %
subSystemSlot: - 125
High Slot Modifier: - 0 +
Medium Slot Modifier: - 1 +
Low Slot Modifier: - 3 +
Type Info
- Type ID:
- 45632
- Graphic ID:
- 21782
- Group ID:
- Core Subsystem
- Icon ID:
- 3636
- Market group ID:
- Minmatar Core Subsystems
- Meta group ID:
- 14
- Published:
- true
- Race ID:
- 2
- Radius:
- 1 m
- Sof faction name:
- minmatarbase
- Volume:
- 40 m3
Description
Comprised of countless nanomachines that enhance the energy flow from a ship's nuclear reactor, this core subsystem offers a pilot the option of increasing the power grid and capacitor capacity of their vessel. Designers of Tech III vessels were initially hampered by the problem of how to design a modular ship that could swap out basic engineering upgrades on a per-need basis. This proved particularly true when it came to reinforcing a vessel's power grid and capacitor banks without the use of batteries. In the end, the provision of nanomachines constructed from fullerene-based polymers allowed for solutions that had only existed in theory up until that point.