首页|A direct contact cooler design for simultaneously recovering latent heat and capturing SO_x and NO_x from pressurized flue gas
A direct contact cooler design for simultaneously recovering latent heat and capturing SO_x and NO_x from pressurized flue gas
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NETL
NSTL
Elsevier
Integrated SOx and NOx removal technology using a direct contact cooler is a promising alternative for cleaning coal combustion flue gas, especially for pressurized combustion systems. Past investigations of integrated SOx and NOx removal have been limited to low-temperature processes, where the flue gas has been cooled upstream of the removal unit, and the moisture in the flue gas has been condensed out. This work presents a novel design that recovers the flue gas heat while simultaneously removing SOx and NOx in a single reactive-absorption column - direct contact cooler. A validated model was used to evaluate different direct contact cooler designs. Modeling results suggested that a counter-current column with a single water inlet can scrub 83% of the NOx and 96.5% of the SOx in 115 s, while an optimized design with multiple water inlets enhances the scrubbing of NOx by 9 percentage points and SOx by 3.5 percentage points, due to a 34% increase in residence time. It is also observed that the liquid-phase reaction between absorbed SOx and NOx plays a significant role in the removal of SO2 from the flue gas for high-temperature scrubbing compared with low-temperature scrubbing. The design reinforces the potential of high-temperature SOx-NOx removal and heat recovery and suggests a means of reducing capital costs for such columns.
SOxNOxLatent heatPressurizedCombustionOxyfuel
Verma, Piyush、Yang, Zhiwei、Axelbaum, Richard L.
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Washington Univ, Dept Energy Environm & Chem Engn, St Louis, MO 63130 USA
NETL
NSTL
Elsevier
