Monitoring the Haber Process

[cs_content][cs_section parallax=”false” separator_top_type=”none” separator_top_height=”50px” separator_top_angle_point=”50″ separator_bottom_type=”none” separator_bottom_height=”50px” separator_bottom_angle_point=”50″ style=”margin: 0px;padding: 45px 0px;”][cs_row inner_container=”true” marginless_columns=”false” style=”margin: 0px auto;padding: 0px;”][cs_column fade=”false” fade_animation=”in” fade_animation_offset=”45px” fade_duration=”750″ type=”1/1″ style=”padding: 0px;”][cs_text]Monitoring and Management‎ > ‎2. Maximising Production‎ > ‎

Explain why monitoring of the reaction vessel used in the Haber process is crucial and discuss the monitoring required[/cs_text][/cs_column][/cs_row][/cs_section][cs_section parallax=”false” separator_top_type=”none” separator_top_height=”50px” separator_top_angle_point=”50″ separator_bottom_type=”none” separator_bottom_height=”50px” separator_bottom_angle_point=”50″ style=”margin: 0px;padding: 45px 0px;”][cs_row inner_container=”true” marginless_columns=”false” style=”margin: 0px auto;padding: 0px;”][cs_column fade=”false” fade_animation=”in” fade_animation_offset=”45px” fade_duration=”750″ type=”1/1″ style=”padding: 0px;”][cs_text]

• The are a great number of conditions that need to be maintained in the Haber process in order to achieve safety and efficiency, and monitoring of the reaction vessel is therefore essential.
• Areas that require monitoring in the reaction vessel include:
  • Temperature and pressure, which need to be kept in a range that will provide optimum efficiency (excessive temperatures can damage the catalyst).
  • Oxygen, which needs to be kept absent from the reaction vessel in order to avoid risk of explosion.
  • Carbon monoxide and sulfur compounds, which can poison the catalyst.
  • Unreactive gases such as methane and argon, which can reduce efficiency in large quantities.
  • The ratio of hydrogen gas to nitrogen gas, which needs to be kept at 3:1 (the correct stoichiometric ratio) in order to avoid the build-up of one gas.
• Much of this monitoring is performed automatically with the supervision of chemical engineers and industrial chemists.

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