Pressurized Reaction Chamber: Difference between revisions

(Added HDPE pellet info)
(A lot of information added - a table describing the energy/materials/liquids/gasses needed to create different materials/gasses, an example setup of how to create Substrate, and a couple of tips)
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|stackable=No
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The '''Pressurized Reaction Chamber''' (PRC) can be used to create [[Substrate]] and [[HDPE Pellet]]s. The creation of Substrate costs 10mb of water, 100 Hydrogen and 2 [[Bio Fuel]] per process. Each process produces 1 Substrate and 100 Ethylene. 1 HDPE Pellet is created from 1 Substrate, 50mb of Liquid Ethylene and 10 Oxygen, 5 Oxygen is created as byproduct. 8 Substrate is created from 1 Substrate, 100 mb of Ethylene and 200 mb of Water, 10 Oxygen is
The '''Pressurized Reaction Chamber''' (PRC) is used primarily to create [[Substrate]], [[HDPE Pellet]]s and [[Ethylene]]. It has a variable speed and energy usage dependent on the materials/gasses it is creating.  
created as a byproduct.


==Crafting recipe==
== Usage ==
The Pressurized Reaction Chamber accepts a liquid, a gas, and a material(s); it uses these three substances to create another material(s) and some leftover gas. Like many other Mekanism machines, it has configurable sides; by default, it accepts gas from the left, accepts liquid from the back, and outputs gas on the right.
 
=== Recipes ===
{| class="wikitable"
! Energy Used
! Speed
! Input Liquid
! Input Gas
! Input Material
! Output Material
! Output Gas
 
|-
| 5 J/t
| Normal
| Water (10 mB)
| [[Hydrogen]] (10)
| Bio Fuel (2)
! Substrate (1)
| Ethylene (100)
 
|-
| 205 J/t
| Slow
| Water (200 mB)
| Ethylene (100)
| Substrate (1)
! Substrate (8)
| Oxygen (10)
 
|-
| 1000 J/t
| Normal
| Liquid Ethylene (50 mB)
| Oxygen (10)
| Substrate (1)
! HDPE Pellet (1)
| Oxygen (5)
 
|}
 
=== Setup ===
<br/>
[[File:Pressurized Reaction Chamber Substrate Setup.jpg | thumb | left | PRC Substrate Setup]]
 
The image on the left is an example setup of a Pressurized Reaction Chamber creating Substrate from Water, Hydrogen, and Bio Fuel.
 
'''A''' - A [[Gas Tank]] outputting Hydrogen. Gas Tanks output through their side with a red rectangular mark  into [[Pressurized Tube]]. You can obtain Hydrogen naturally by using an [[Electrolytic Separator]]. <br/>
'''B''' - A [[Portable Tank]] outputs water through [[Mechanical Pipe]]. Notice that the end of the Mechanical Pipe touching the Portable Tank has been configured using a [[Configurator]] to "PULL". You can obtain water naturally by using the [[Water Pump]]. <br/>
'''C''' - A powered [[Crusher]] crushes nature ingredients into Bio Fuel and outputs it through [[Logistical Transporter]] piping. Again, note that the piping has been set to "PULL". <br/>
'''D''' - The resulting Ethylene (Gas) from the reaction is sent through Pressurized Tube into a Gas Tank. <br/>
'''E''' - The Pressurized Reaction Chamber itself. It has been configured to accept items from its top (Items - Red), accept Energy through its bottom (Energy - Green), accept gases from its left (Gases - Red), accept fluids from its back (Fluids - Yellow), and output gases from its right (Gases - Blue - Auto Eject: On). <br clear=both/>
 
== Crafting Recipe ==
{{Grid/Crafting Table
{{Grid/Crafting Table
|A1=|B1=Enriched Alloy|C1=
|A1=|B1=Enriched Alloy|C1=
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|A3=Gas Tank|B3=Dynamic Tank|C3=Gas Tank
|A3=Gas Tank|B3=Dynamic Tank|C3=Gas Tank
|Output=Pressurized Reaction Chamber}}
|Output=Pressurized Reaction Chamber}}
== Tips ==
* If you need to clear a liquid or gas from the input gauges, use the [[Gauge Dropper]]; simply open the Pressurized Reaction Chamber's GUI (by right-clicking it), take an empty Gauge Dropper from your inventory, and click on the gauge with the liquid or gas that you want to extract. You can then either shift+right-click on the ground with the Gauge Dropper to empty it and continue to extract the gas or liquid by repeating the previous steps, or drop it into a [[Gas Tank]] or [[Portable Tank]]'s input slot on its interface (marked with either an "I" or a "-") to move the substance into the receptacle without wasting it.
* Remember that Liquid Ethylene is '''not''' the same as Ethylene. To create HDPE Pellets, you must first convert the Ethylene into Liquid Ethylene using a [[Rotary Condensentrator]]. Have it accept Ethylene from its "G" (Gas) side, and output Liquid Ethylene from its "L" (Liquid) side, and leave it in "Condensentrating" mode.




{{Mekanism}}
{{Mekanism}}

Revision as of 16:04, 9 June 2015

Pressurized Reaction Chamber
Pressurized Reaction Chamber.png
Pressurized Reaction Chamber
Mod

Mekanism

Type

Machine

Tool

?

Stackable

No

The Pressurized Reaction Chamber (PRC) is used primarily to create Substrate, HDPE Pellets and Ethylene. It has a variable speed and energy usage dependent on the materials/gasses it is creating.

Usage

The Pressurized Reaction Chamber accepts a liquid, a gas, and a material(s); it uses these three substances to create another material(s) and some leftover gas. Like many other Mekanism machines, it has configurable sides; by default, it accepts gas from the left, accepts liquid from the back, and outputs gas on the right.

Recipes

Energy Used Speed Input Liquid Input Gas Input Material Output Material Output Gas
5 J/t Normal Water (10 mB) Hydrogen (10) Bio Fuel (2) Substrate (1) Ethylene (100)
205 J/t Slow Water (200 mB) Ethylene (100) Substrate (1) Substrate (8) Oxygen (10)
1000 J/t Normal Liquid Ethylene (50 mB) Oxygen (10) Substrate (1) HDPE Pellet (1) Oxygen (5)

Setup


PRC Substrate Setup

The image on the left is an example setup of a Pressurized Reaction Chamber creating Substrate from Water, Hydrogen, and Bio Fuel.

A - A Gas Tank outputting Hydrogen. Gas Tanks output through their side with a red rectangular mark into Pressurized Tube. You can obtain Hydrogen naturally by using an Electrolytic Separator.
B - A Portable Tank outputs water through Mechanical Pipe. Notice that the end of the Mechanical Pipe touching the Portable Tank has been configured using a Configurator to "PULL". You can obtain water naturally by using the Water Pump.
C - A powered Crusher crushes nature ingredients into Bio Fuel and outputs it through Logistical Transporter piping. Again, note that the piping has been set to "PULL".
D - The resulting Ethylene (Gas) from the reaction is sent through Pressurized Tube into a Gas Tank.
E - The Pressurized Reaction Chamber itself. It has been configured to accept items from its top (Items - Red), accept Energy through its bottom (Energy - Green), accept gases from its left (Gases - Red), accept fluids from its back (Fluids - Yellow), and output gases from its right (Gases - Blue - Auto Eject: On).

Crafting Recipe


Enriched Alloy
Grid layout Arrow (small).png Pressurized Reaction Chamber
Control Circuit Enrichment Chamber Control Circuit
Gas Tank Dynamic Tank Gas Tank

Tips

  • If you need to clear a liquid or gas from the input gauges, use the Gauge Dropper; simply open the Pressurized Reaction Chamber's GUI (by right-clicking it), take an empty Gauge Dropper from your inventory, and click on the gauge with the liquid or gas that you want to extract. You can then either shift+right-click on the ground with the Gauge Dropper to empty it and continue to extract the gas or liquid by repeating the previous steps, or drop it into a Gas Tank or Portable Tank's input slot on its interface (marked with either an "I" or a "-") to move the substance into the receptacle without wasting it.
  • Remember that Liquid Ethylene is not the same as Ethylene. To create HDPE Pellets, you must first convert the Ethylene into Liquid Ethylene using a Rotary Condensentrator. Have it accept Ethylene from its "G" (Gas) side, and output Liquid Ethylene from its "L" (Liquid) side, and leave it in "Condensentrating" mode.



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