Charles G. Coe scite author profile

A novel, high temperature solid absorbent based on lithium orthosilicate (Li(4)SiO(4)) has shown promise for postcombustion CO(2) capture. Previous studies utilizing a clean, synthetic flue gas have shown that the absorbent has a high CO(2) capacity, >25 wt %, along with high absorption rates, lower heat of absorption and lower regeneration temperature than other solids such as calcium oxide. The current effort was aimed at evaluating the Li(4)SiO(4) based absorbent in the presence of contaminants found in typical flue gas, specifically SO(2), by cyclic exposure to gas mixtures containing CO(2), H(2)O (up to 25 vol. %), and SO(2) (up to 0.95 vol. %). In the absence of SO(2), a stable CO(2) capacity of ∼ 25 wt % over 25 cycles at 550 °C was achieved. The presence of SO(2), even at concentrations as low as 0.002 vol. %, resulted in an irreversible reaction with the absorbent and a decrease in CO(2) capacity. Analysis of SO(2)-exposed samples revealed that the absorbent reacted chemically and irreversibly with SO(2) at 550 °C forming Li(2)SO(4). Thus, industrial application would require desulfurization of flue gas prior to contacting the absorbent. Reactivity with SO(2) is not unique to the lithium orthosilicate material, so similar steps would be required for other absorbents that chemically react with SO(2).

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Manganese-Schiff base complexes. VI. Synthesis and spectroscopy of aquo[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]manganese(III) perchlorate and .mu.-dioxo-bis[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]dimanganese(IV) and related N,N'-trimethylenebis(4-sec-butylsalicylaldimine) complexes

Boucher¹,

Coe²

1975

Inorg. Chem.

119

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path with confidence. No conclusion can be drawn as to the nature of the ko path, but the strongly basic nature of the sulfur suggests the possibility of the "tautomeric" mechanism7 in which the leaving group is a protonated ligand, the proton coming from an intermolecular transfer instead of a simple aquation. The activation parameters of the ko' path may elucidate the mechanism present.3 Also at higher excesses of Cr(II) a "tautomeric" path of the form fo[Cr2+] may well be observed.

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Charles G. Coe

Combined Neutron and X-ray Powder Diffraction Study of Zeolite Ca LSX and a 2H NMR Study of Its Complex with Benzene

Measurement of Adsorption Equilibrium by the Zero Length Column (ZLC) Technique Part 1: Single-Component Systems

Influence of the Concentration of CO₂ and SO₂ on the Absorption of CO₂ by a Lithium Orthosilicate-Based Absorbent

Manganese-Schiff base complexes. VI. Synthesis and spectroscopy of aquo[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]manganese(III) perchlorate and .mu.-dioxo-bis[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]dimanganese(IV) and related N,N'-trimethylenebis(4-sec-butylsalicylaldimine) complexes

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Charles G. Coe

Combined Neutron and X-ray Powder Diffraction Study of Zeolite Ca LSX and a 2H NMR Study of Its Complex with Benzene

Measurement of Adsorption Equilibrium by the Zero Length Column (ZLC) Technique Part 1: Single-Component Systems

Influence of the Concentration of CO2 and SO2 on the Absorption of CO2 by a Lithium Orthosilicate-Based Absorbent

Manganese-Schiff base complexes. VI. Synthesis and spectroscopy of aquo[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]manganese(III) perchlorate and .mu.-dioxo-bis[N,N'-ethylenebis(4-sec-butylsalicylaldiminato)]dimanganese(IV) and related N,N'-trimethylenebis(4-sec-butylsalicylaldimine) complexes

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Influence of the Concentration of CO₂ and SO₂ on the Absorption of CO₂ by a Lithium Orthosilicate-Based Absorbent