Cryo Chamber
The Cryo Chamber is a multifunction thermal machine with three parallel modules: Cryo Stabilizer, Cooling Chamber, and Cryofluid Generator.
It combines stabilization, cooling, and fluid generation into a single block.
Machine Information
Setting
Value
Energy Capacity
128,000,000 DE (128 MDE)
Energy Consumption
2,400–64,000 DE per operation (depends on module/recipe)
Base Processing Rate
2,400 DE/t
Water Tank
64,000 mB
Cryofluid Tank
64,000 mB
Upgrade Slots
3
Overclockable
Machine UI
Usage Examples
| Module | Example |
|---|---|
| Cryo Stabilizer | Energized Iron Ingot → Iron Ingot |
| Cooling Chamber | Packed Ice → Blue Ice |
| Cryofluid Generator | Water + Titanium catalyst → Cryofluid |
Practical notes
The Cryo Chamber groups three cold-processing roles in one interface, but each side still follows its own recipe and resource rules.
- Use the stabilizer for energized or unstable materials.
- Use the cooling grid for item cooling recipes.
- Use the generator section when you need more Cryofluid.
Crafting Recipe
How It Works
- Power the machine and keep water available.
- Use each module according to its own slot/tank requirements.
- Stabilizer recipes may consume Cryofluid.
- Cooling recipes can run in parallel in the 3×3 grid.
- Use the generator section with its required water and catalyst setup when you need more Cryofluid.
Parallel operation
The machine can support more than one cold-processing role in the same block.
- Keep enough DE, Water, and Cryofluid available for smoother long sessions.
Tank notes
- The Water tank feeds the generator side.
- The Cryofluid tank stores produced Cryofluid and supports recipes that consume it.
Recipes
Stabilization (Cryo Stabilizer)
| Input | Output | Cryofluid | Energy (DE) | Time |
|---|---|---|---|---|
| Charged Darloonite Crystal ×1 | Darloonite Crystal ×1 | 1,600 mB | 24,000 | 200 ticks (10s) |
| Energized Iron Dust ×1 | Iron Dust ×1 | 250 mB | 4,000 | 100 ticks (5s) |
| Energized Iron Ingot ×1 | Iron Ingot ×1 | 500 mB | 8,000 | 200 ticks (10s) |
| Brute Energized Iron ×1 | Raw Iron ×1 | 500 mB | 8,000 | 200 ticks (10s) |
| Energized Iron Block ×1 | Iron Block ×1 | 4,000 mB | 64,000 | 1,200 ticks (60s) |
| Brute Energized Iron Block ×1 | Raw Iron Block ×1 | 4,000 mB | 64,000 | 1,200 ticks (60s) |
| Refined Aetherium Shard ×1 | Aetherium Shard ×1 | 400 mB | 12,000 | 300 ticks (15s) |
Cooling (Cooling Chamber)
| Input | Output | Fluid | Energy (DE) | Time |
|---|---|---|---|---|
| Cooked Beef ×1 | Raw Beef ×1 | — | 2,400 | 40 ticks (2s) |
| Cooked Porkchop ×1 | Raw Porkchop ×1 | — | 2,400 | 40 ticks (2s) |
| Cooked Chicken ×1 | Raw Chicken ×1 | — | 2,400 | 40 ticks (2s) |
| Snow Layer ×1 | Ice ×1 | Water 100 mB | 16,000 | 60 ticks (3s) |
| Ice ×1 | Packed Ice ×1 | — | 16,000 | 100 ticks (5s) |
| Packed Ice ×1 | Blue Ice ×1 | — | 16,000 | 300 ticks (15s) |
Cryofluid Generator
- Input: Water tank
- Output: Cryofluid tank
- Base conversion: 1,000 mB water → 800 mB Cryofluid
- Energy cost: 32,000 DE per 1,000 mB water
- Base process time: 80 ticks per 1,000 mB water
- Catalysts:
- Titanium: 1,000 mB → 800 mB
- Raw Titanium: 1,000 mB → 1,600 mB
- Supplement: 8 Lapis Lazuli per 1,000 mB water