.. _multiblock-haber-bosch:

Haber-Bosch Chamber
===================

.. figure:: screenshots/haber-bosch.avif
    
    A single Haber-Bosch Chamber.

+---------------+---------------+---------------+--------------------+
| Hatch Type    | Minimum Count | Maximum Count | Placement          |
+===============+===============+===============+====================+
| Energy Input  | 1             | 2             | Next to controller |
+---------------+---------------+---------------+--------------------+
| Energy Output | N/A           | N/A           | N/A                |
+---------------+---------------+---------------+--------------------+
| Fluid Input   | 2             | Unlimited     | Left/right wall    |
+---------------+---------------+---------------+--------------------+
| Fluid Output  | 1             | Unlimited     | Left/right wall    |
+---------------+---------------+---------------+--------------------+
| Item Input    | 1             | 1             | Left/right wall    |
+---------------+---------------+---------------+--------------------+
| Item Output   | N/A           | N/A           | N/A                |
+---------------+---------------+---------------+--------------------+

The Haber-Bosch chamber is a multiblock machine with a singular purpose: to run the Haber-Bosch
process in a fast and efficient manner. 

.. note::

    The preview for this is very broken. Make sure to click the individual blocks to find out
    what is accepted where, and consult the screenshot and table above.

Behaviour
---------

When Nitrogen and Hydrogen are input, alongside Iron(III) Oxide as a catalyst, the chamber produces
ammonia.

This recipe requires at least EV power to run, or two HV hatches.