Salt extraction from hydrogen-sulfide scrubber solution using electrodialysis

The buildup of undesirable sulfur compounds(sulfates and thiosulfates) reduces the scrubbing effectiveness of the LO‐CAT I autocirculation sulfur recovery process from acid‐gas stream. Among various processes, withdrawing and disposing of a portion of the scrubber solution and replacing this “blowdo...

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Veröffentlicht in:	AIChE Journal 1995-05, Vol.41 (5), p.1194-1203
Hauptverfasser:	Jamaluddin, A. K. M., Kennedy, M. W., McManus, D., Nazarko, T. W.
Format:	Artikel
Sprache:	eng
Schlagworte:	03 NATURAL GAS AMINES CARBON DIOXIDE DESULFURIZATION ELECTRODIALYSIS HYDROGEN SULFIDES MATERIALS RECOVERY NATURAL GAS REMOVAL SPENT LIQUORS SULFATES SULFUR THIOSULFATES
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creator	Jamaluddin, A. K. M. Kennedy, M. W. McManus, D. Nazarko, T. W.
description	The buildup of undesirable sulfur compounds(sulfates and thiosulfates) reduces the scrubbing effectiveness of the LO‐CAT I autocirculation sulfur recovery process from acid‐gas stream. Among various processes, withdrawing and disposing of a portion of the scrubber solution and replacing this “blowdown” with fresh solution have been the practice in the industry. The application of the electrodialysis system to recycle the blowdown is presented. Experiments were carried out using electrodialysis to separate salts (sulfates and thiosulfates) from the LO‐CAT I autocirculation scrubber solution containing organic chelating agents, iron, and various alkali‐metal inorganic salts. The results indicated that the electrodialysis was successful in removing 50% of the salts from the scrubber solution with less than 8% loss of organic and 8% loss of carbonates. The fluxes of the undesired salt species were high even at low current densities (200 to 400 A/m2).
doi_str_mv	10.1002/aic.690410515
format	Article
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The results indicated that the electrodialysis was successful in removing 50% of the salts from the scrubber solution with less than 8% loss of organic and 8% loss of carbonates. 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Experiments were carried out using electrodialysis to separate salts (sulfates and thiosulfates) from the LO‐CAT I autocirculation scrubber solution containing organic chelating agents, iron, and various alkali‐metal inorganic salts. The results indicated that the electrodialysis was successful in removing 50% of the salts from the scrubber solution with less than 8% loss of organic and 8% loss of carbonates. 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Among various processes, withdrawing and disposing of a portion of the scrubber solution and replacing this “blowdown” with fresh solution have been the practice in the industry. The application of the electrodialysis system to recycle the blowdown is presented. Experiments were carried out using electrodialysis to separate salts (sulfates and thiosulfates) from the LO‐CAT I autocirculation scrubber solution containing organic chelating agents, iron, and various alkali‐metal inorganic salts. The results indicated that the electrodialysis was successful in removing 50% of the salts from the scrubber solution with less than 8% loss of organic and 8% loss of carbonates. The fluxes of the undesired salt species were high even at low current densities (200 to 400 A/m2).</abstract><cop>New York</cop><pub>American Institute of Chemical Engineers</pub><doi>10.1002/aic.690410515</doi><tpages>10</tpages></addata></record>
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subjects	03 NATURAL GAS AMINES CARBON DIOXIDE DESULFURIZATION ELECTRODIALYSIS HYDROGEN SULFIDES MATERIALS RECOVERY NATURAL GAS REMOVAL SPENT LIQUORS SULFATES SULFUR THIOSULFATES
title	Salt extraction from hydrogen-sulfide scrubber solution using electrodialysis
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