IECM 12.0 beta User Manual
IECM 12.0 beta User Manual

 

The Selexol Sulfur Capture System Diagram result screen shows the major flows into and out of the Selexol sulfur capture system:


IGCC: GET RESULTS: Sulfur Removal: 1. Selexol Sulfur Capture System: Selexol Sulfur Capture System Diagram

Each result is described briefly below:

Area 1: Syngas Entering the Sulfur Removal Unit

Temperature In: Temperature of the syngas entering the Selexol-based sulfur removal unit.

Pressure In: Pressure of the syngas entering the Selexol-based sulfur removal unit.

Syngas In: Flow rate of the syngas entering the Selexol-based sulfur removal unit.

Area 2: Solvent Entering the Sulfur Removal Unit

Makeup Solvent: This is the Selexol solvent makeup rate into the sulfur removal unit expressed on a continuous basis.

Area 3: Catalyst Entering the Claus Plant

Makeup Catalyst: This is the catalyst makeup rate for the Claus plant expressed on a continuous basis.

Area 4: Catalyst Entering the Beavon-Stretford Plant

Makeup Catalyst: This is the catalyst makeup rate for the Beavon-Stretford plant expressed on a continuous basis.

Area 5: Syngas Exiting the Sulfur Removal Unit

Temperature Out: Temperature of the syngas exiting the Selexol-based sulfur removal unit.

Pressure Out: Pressure of the syngas exiting the Selexol-based sulfur removal unit.

Syngas Out: Flow rate of the syngas exiting the Selexol-based sulfur removal unit.

Area 6: Sulfur

Sulfur Out: Flow rate of the elemental sulfur collected in both the Claus and Beavon-Stretford plants.

Area 7: Exhaust Gas

Flue Gas Out: The exhaust gas from the Beavon-Stretford plant is completely burned and sent to a stack. This is the flow rate of combusted exhaust gases.


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