Selective absorption of H<sub>2</sub>S from larger quantities of CO<sub>2</sub> by absorption and reaction in fine sprays

Bendall, E.; Aiken, R.C.; Mandas, F.

doi:10.1002/aic.690290109

Cited by 22 publications

(14 citation statements)

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“…The simultaneous absorption of HzS and COz into carbonate solutions, at high COz to HzS ratios, has previously been studied by several researchers (Srinivasan and Aiken, 1988;Bendall et al, 1983;Yih and Sun, 1987;Gioia et al, 1968 andGarner et al, 1958). The process has been studied with experiments, theoretical…”

Section: Introductionmentioning

confidence: 99%

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SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

Wallin

Olausson

1993

Chemical Engineering Communications

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The simultaneous absorption of H 2S and CO 2 has been studied both experimentally and theoretically. A model has been developed which predicts the absorption rates of H 2S and CO 2 into a sodium carbonate solution. The absorption rates are calculated according to the two-film theory. In the liquid film, the finite rate of the CO 2 reaction was considered. Otherwise. in the liquid film as well as in the liquid bulk, equilibrium conditions for all reactions were assumed. Absorption experiments were performed on a packed column using a counter-flow strategy. In the experiments the influence of the initial carbonate concentration, the gas flow rate and the temperature on the removal efficiencies of H 2S and CO 2 and the selectivity of H 2S were investigated. It is desirable to absorb the H,S but not the CO 2 , The agreement between the absorption model and the experimental results from the absorber tower was satisfactory. The mass transfer coefficients were determined by fitting the experimental data to the model with respect to the H 2S and CO 2 content in the outgoing gas. The H 2S conlent was used to determine the gas side mass transfer coefficient and the CO 2 content was used to determine the liquid side mass transfer coefficient. The effective contact area of mass transfer was taken from published data. With a constant packing height. both the experiments and the model indicated that high carbonate concentration benefits the removal efficiency of H 2S. Higher gas flow rate also benefits the selectivity for H 2S. However, the removal efficiency will decrease. At higher temperatures the selectivity and the removal efficiency of H 2S decreased. Under the conditions investigated, the absorption of H 2S was essentially controlled by gas-side mass transfer and the absorption of CO 2 was controlled by liquid-side mass transfer.

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Section: Introductionmentioning

confidence: 99%

“…• The gas-side resistance to mass transport is dominant for H 2S and the liquid-side resistance is dominant for CO 2 (Srinivasan and Aiken, 1988;Bendall et al, 1983;Yih andSun, 1987 andGarner et aI., 1958). The reaction with H 2S in the liquid is much faster than the CO 2 reaction (Gioia et al, 1968).…”

Section: Introductionmentioning

confidence: 99%

SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

Wallin

Olausson

1993

Chemical Engineering Communications

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“…Bendall et al 7 studied the selective reactive absorption of H 2 S from CO 2 in fine sprays of buffered carbonate solution. They reported that the gas film resistance to mass transfer is negligible when the average droplet diameter exceeds 50 μm.…”

Section: Introductionmentioning

confidence: 99%

H₂S Reactive Absorption from Off‐Gas in a Spray Column: Insights from Experiments and Modeling

2015

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H 2 S removal from an off-gas stream was performed in a spray column by H 2 S reactive absorption into a NaOH solution. The individual and interactive effects of three independent operating variables on the percentage of absorbed H 2 S were investigated: the initial pH of the scrubbing solution, the initial scrubbing solution temperature, and the volumetric liquid-to-gas ratio. The optimum operating variables were determined by response surface methodology (RSM) attaining a percentage of absorbed H 2 S of 98.7 ± 0.2 %. Additionally, the process performance was modeled by an artificial neural network (ANN) to predict the percentage of absorbed H 2 S. The results showed that the experimental data agreed better with the ANN model than with the RSM results.

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“…Nevertheless, in spite of its regenerable characteristics, the main product is still H 2 S and CO 2 which are passed to another facility to be treated again which main product is elemental sulfur, making the treatment process costly and time consuming. Another process used to eliminate H 2 S and CO 2 is their absorption in sodium hydroxide solutions, but the problem is that the sodium hydroxide is not regenerable; in consequence, it is limited to the removal of small quantities of acid gases [3][4][5][6][7][8]. The objective of this work is to explore the technical viability of an alkaline system to absorb such acid gases to produce, in situ, valuable products other than elemental sulfur.…”

Section: Introductionmentioning

confidence: 99%

Insights in the development of a new method to treat H2S and CO2 from sour gas by alkali

Álvarez-Cruz

Sánchez-Flores

Torres-Gonzaléz

et al. 2012

Fuel

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Selective absorption of H₂S from larger quantities of CO₂ by absorption and reaction in fine sprays

Cited by 22 publications

References 8 publications

SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

H₂S Reactive Absorption from Off‐Gas in a Spray Column: Insights from Experiments and Modeling

Insights in the development of a new method to treat H2S and CO2 from sour gas by alkali

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Selective absorption of H2S from larger quantities of CO2 by absorption and reaction in fine sprays

Cited by 22 publications

References 8 publications

SIMULTANEOUS ABSORPTION OF H2S AND CO2 INTO A SOLUTION OF SODIUM CARBONATE

SIMULTANEOUS ABSORPTION OF H2S AND CO2 INTO A SOLUTION OF SODIUM CARBONATE

H2S Reactive Absorption from Off‐Gas in a Spray Column: Insights from Experiments and Modeling

Insights in the development of a new method to treat H2S and CO2 from sour gas by alkali

Contact Info

Product

Resources

About

Selective absorption of H₂S from larger quantities of CO₂ by absorption and reaction in fine sprays

SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

SIMULTANEOUS ABSORPTION OF H2S AND CO₂ INTO A SOLUTION OF SODIUM CARBONATE

H₂S Reactive Absorption from Off‐Gas in a Spray Column: Insights from Experiments and Modeling