Hydrogen Peroxide
| Hydrogen Peroxide | |||||||
|---|---|---|---|---|---|---|---|
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| Properties | |||||||
| Type | Liquid | ||||||
| Made With/By | 💧 | ||||||
| Difficulty of Production | Very Easy | ||||||
| Exists in Reality | Yes | ||||||
| Temperature | ~20°C | ||||||
| Renewable? | Yes | ||||||
| Tooltip | |||||||
| Hydrogen Peroxide [Corrosive] [Liquid] Hbm's Nuclear Tech | |||||||
| Warnings | |||||||
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Hydrogen Peroxide () is a corrosive liquid, made either in a chemical plant or a radiolysis chamber from water. It is used extensively in material processing and in the production of various materials.
Hydrogen peroxide is heavily used in the crystallization of many ores and the cleaning of bedrock ore. It is a precursor in the production of sulfuric acid, schrabidium trisulfide, and osmiridic solution. It is also used for the production certain items, including but not limited to semtex, desh, fiberglass, solid fuel, leather, and yellowcake.
Production
Hydrogen peroxide can be produced in 2 machines: The radiolysis machine and the chemical plant:
- In the radiolysis machine:
- 200mB water > 80mB hydrogen peroxide, 20mB liquid hydrogen
| Inputs | Recipes |
|---|---|
| Chemistry Template: Hydrogen Peroxide
Production Time: 2.5 seconds Consumption: 100 HE/t Inputs: Water Produces: Hydrogen Peroxide |
 1,000mB     1,000mB |
Uses
Hydrogen peroxide has multiple direct and indirect uses in material processing. For instance, it is used in the production of sulfuric acid used to crystallize certain ores which cannot be with hydrogen peroxide directly. It is also used in the first step of uranium enrichment by converting uranium billets into yellowcake in the chemical plant.
| Inputs | Recipes |
|---|---|
| Recipe: Sulfuric Acid
Production Time: 2.5 seconds Consumption: 100 HE/t Inputs: Hydrogen Peroxide, Water, Sulfur Outputs: Sulfuric Acid |
1,000mB1,000mB  2,000mB |
| Recipe: Yellowcake
Production Time: 12.5 seconds Consumption: 500 HE/t Inputs: Hydrogen Peroxide, Uranium Billet, Sulfur Outputs: Yellowcake |
500mB |
| Recipe: Schrabidium Trisulfide
Production Time: 10.0 seconds Consumption: 5.0 kHE/t Inputs: Hydrogen Peroxide, Schrabidium Powder, Sulfur Outputs: Schrabidium Trisulfide |
2,000mB 1,000mB |
| Recipe: Schrabidic Acid
Production Time: 5.0 seconds Consumption: 5.0 kHE/t Inputs: Hydrogen Peroxide, Schrabidium Trisulfide, Ionized Particles Outputs: Schrabidic Acid |
8,000mB6,000mB  16,000mB |
| Recipe: Purified Tantalite
Production Time: 3.0 seconds Consumption: 100 HE/t Inputs: Hydrogen Peroxide, Liquid Hydrogen, Crushed Coltan, Coal Powder |
250mB 500mB500mB   |
| Recipe: Tantalium Polycrystal
Production Time: 4.0 seconds Consumption: 100 HE/t Inputs: Pandemonium(III)tantalite Solution, Hydrogen Peroxide Outputs: Water, Tantalium Polycrystal, Dust |
 1,000mB500mB250mB |
| Recipe: Osmiridic Solution
Production Time: 12.0 seconds Consumption: 1.0 kHE/t Inputs: Hydrogen Peroxide at 5 PU, Paleogenite Powder, Fluorite, Bismuth Nugget Outputs: Osmiridic Solution |
1,000mB 1,000mB |
| Recipe: Ithis-Brand Radium Chocolate
Production Time: 3.0 seconds Consumption: 300 HE/t Inputs: Hydrogen Peroxide, Engine Lubricant, Wheat, Cocoa Beans Outputs: Ithis-Brand Radium Chocolate |
 400mB400mB [2]  |
- In an ore acidizer:
500mB
500mB
500mB
500mB
500mB
500mB
500mB
500mB
500mB
3500mB
500mB
500mB
500mB
500mB
500mB
- In an industrial mixer:
800mB
500mB
8,000mB6,000mB16,000mB
- And lastly, in a soldering station:
250mB
Hydrogen peroxide stored in (1000mB) universal fluid tanks to make a few other items, and hydrogen peroxide stored in (16000mB) fluid barrels to make a upgrade:
8
These tanks of hydrogen peroxide in an assembly machine to make thermobaric artillery rocket pods:
| Assembly Template | Recipes |
|---|---|
| Assembly Template: 610mm Guided Artillery Rocket Pod (Thermobaric)
Production Time: 5.0 seconds |
     |
| Assembly Template: 227mm Guided Artillery Rocket Pod (Thermobaric)
Production Time: 5.0 seconds |
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