Ammonia production from natural gas
Natural
gas consists of high concentrations of Hydrogen than any other fossil
fuel gases. Due its availability and hydrogen fraction, it is selected
as raw material for production of Ammonia past many years. Nitrogen for
ammonia is taken from air. Both hydrogen and nitrogen are reacted on
catalyst like iron. Most of the well-engineered industries today produce
hydrogen by steam reforming followed by autothermal oxidation. To
understand such scientifically researched and approved process a block
diagram is needed. It shows every unit operation involved in the process
train, for example, Desulphurization. Natural gas contains ppm level
of sulphur that cause harm to the catalyst in the reformers and
reactors. Process is designed to remove sulphur as impurity in the form
of hydrogen sulphide or absorb it on the packed bed. By means of
endothermic reaction of steam and natural gas maximum percentage of
methane will be converted into hydrogen and oxide compounds of carbon in
primary reformer. Secondary reformer is a exothermic autothermal
reactor model it assure the nitrogen addition from air and complete
conversion of methane to carbon dioxide or carbon monoxide and hydrogen.
The whole system is well-established engineering model obtained by
rigorous simulations and analysis. Recovery of carbon dioxide and
carbon monoxide is done by absorption and stripping block. Nitrogen and
Hydrogen mole fractions are maintained after the absorption and
reforming operations, in the presence of iron catalyst ammonia is formed
and then liquefied for storage and transportation.
Short description on ammonia plant block diagram
| Blocks | Unit process/operations | Description |
| Desulphurization | Hydrogenation and Absorptions | Sulphur is reacted with hydrogen to form hydrogen sulphide and then absorbed on packed bed absorber |
| Primary reformer | Catalytic reforming | Methane converted to CO,H2,CO2 |
| Secondary reformer | Catalytic autothermal reaction | Residual methane conversion to CO2 and H2 |
| High temperature shit conversion | Water-gas shift reaction at high temperature | CO converted to CO2 |
| Low temperature shift conversion | Water-gas shift reaction at low temperature | Residual CO converted to CO2 |
| Carbon dioxide absorption | Chemical Absorption | CO2 absorbed by G.V solution |
| Carbon dioxide stripping | Stripping | CO2 stripped from G.V |
| Methanator | Methanation | CO2 and CO traces in process gas are converted to methane |
| Synthesis gas compressor | Centrifugal compression | To develop operating pressure for synthesis reactor |
| Ammonia synthesis reactor | Double Packed bed Reactor | Ammonia formation |
| Chilling | Heat exchanger | Ammonia vapor cooling |
| Refrigeration and compression | Screw compression | To liquefy ammonia for storage |
| Purge gas and recovery | Absorption, separation | To separate traces of nitrogen, argon, methane and hydrogen in the process |
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