ELECTRODIALYSIS-DISTILLATION HYBRID PROCESS FOR THE RECOVERY OF DIMETHYLSULFOXIDE (DMSO) SOLVENT FROM INDUSTRIAL EFFLUENT

The invention relates to the removal of the impact-sensitive and hazardous sodium azide (NaN3) salt along with ammonium chloride (NH4Cl) for the recovery of dimethyl sulfoxide (DMSO) solvent present in a pharmaceutical industrial effluent generated during the manufacture of antiretroviral drugs. The...

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Hauptverfasser:	YERRAPRAGADA, VENKATA, LAKSHMI, RAVIKUMAR, KUNDUVELIL, SREEDHARA, MENON, RAGHUNANDANAN, MANNAVA, GIRIDHARA, CHALAPATHI, RAO, KAMMARA, SUNITHA, SUNDERGOPAL, SRIDHAR, CHEEKAPALLY, POTULAPALLY, RAMALU, BOINEE, VISHWANADHAM
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Sprache:	eng ; fre
Schlagworte:	ACYCLIC OR CARBOCYCLIC COMPOUNDS CHEMISTRY METALLURGY ORGANIC CHEMISTRY PERFORMING OPERATIONS PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL SEPARATION TRANSPORTING
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creator	YERRAPRAGADA, VENKATA, LAKSHMI, RAVIKUMAR KUNDUVELIL, SREEDHARA, MENON, RAGHUNANDANAN MANNAVA, GIRIDHARA, CHALAPATHI, RAO KAMMARA, SUNITHA SUNDERGOPAL, SRIDHAR CHEEKAPALLY, POTULAPALLY, RAMALU BOINEE, VISHWANADHAM
description	The invention relates to the removal of the impact-sensitive and hazardous sodium azide (NaN3) salt along with ammonium chloride (NH4Cl) for the recovery of dimethyl sulfoxide (DMSO) solvent present in a pharmaceutical industrial effluent generated during the manufacture of antiretroviral drugs. The wastewater cannot be directly distilled for DMSO recovery in the presence of NaN3, which could cause explosions. Moreover, disposal of the DMSO increases the chemical oxygen demand (COD) load on the effluent treatment plant (ETP). The developed process includes pretreatment of the effluent for the removal of colloidal impurities and suspended solids followed by electrodialysis using cation and anion-exchange membranes stacked alternately for reduction of the salts concentration to ppm levels. The desalted liquor is then subjected to two vacuum distillation steps for recovering pure DMSO solvent. La présente invention concerne l'élimination du sel d'azoture de sodium (NaN3) dangereux et sensible aux chocs conjointement avec du chlorure d'ammonium (NH4Cl) pour la récupération d'un solvant de diméthylsulfoxide (DMSO) contenu dans un effluent industriel pharmaceutique généré pendant la fabrication de médicaments antirétroviraux. Les eaux usées ne peuvent pas être directement distillées pour récupérer le DMSO en présence du NaN3, en raison des risques d'explosion. En outre, l'élimination du DMSO augmente la charge de demande chimique en oxygène (DCO) sur les installations de traitement des effluents (ETP). Le processus développé comprend le traitement préalable de l'effluent pour éliminer les impuretés colloïdales et les solides en suspension suivi de l'électrodialyse au moyen de membranes d'échange d'anions et de cations empilées alternativement pour réduire la concentration en sels à des niveaux de valeur ppm. La liqueur dessalée est ensuite soumise à deux étapes de distillation sous vide afin de récupérer le solvant DMSO pur.
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The wastewater cannot be directly distilled for DMSO recovery in the presence of NaN3, which could cause explosions. Moreover, disposal of the DMSO increases the chemical oxygen demand (COD) load on the effluent treatment plant (ETP). The developed process includes pretreatment of the effluent for the removal of colloidal impurities and suspended solids followed by electrodialysis using cation and anion-exchange membranes stacked alternately for reduction of the salts concentration to ppm levels. The desalted liquor is then subjected to two vacuum distillation steps for recovering pure DMSO solvent. La présente invention concerne l'élimination du sel d'azoture de sodium (NaN3) dangereux et sensible aux chocs conjointement avec du chlorure d'ammonium (NH4Cl) pour la récupération d'un solvant de diméthylsulfoxide (DMSO) contenu dans un effluent industriel pharmaceutique généré pendant la fabrication de médicaments antirétroviraux. Les eaux usées ne peuvent pas être directement distillées pour récupérer le DMSO en présence du NaN3, en raison des risques d'explosion. En outre, l'élimination du DMSO augmente la charge de demande chimique en oxygène (DCO) sur les installations de traitement des effluents (ETP). Le processus développé comprend le traitement préalable de l'effluent pour éliminer les impuretés colloïdales et les solides en suspension suivi de l'électrodialyse au moyen de membranes d'échange d'anions et de cations empilées alternativement pour réduire la concentration en sels à des niveaux de valeur ppm. 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The wastewater cannot be directly distilled for DMSO recovery in the presence of NaN3, which could cause explosions. Moreover, disposal of the DMSO increases the chemical oxygen demand (COD) load on the effluent treatment plant (ETP). The developed process includes pretreatment of the effluent for the removal of colloidal impurities and suspended solids followed by electrodialysis using cation and anion-exchange membranes stacked alternately for reduction of the salts concentration to ppm levels. The desalted liquor is then subjected to two vacuum distillation steps for recovering pure DMSO solvent. La présente invention concerne l'élimination du sel d'azoture de sodium (NaN3) dangereux et sensible aux chocs conjointement avec du chlorure d'ammonium (NH4Cl) pour la récupération d'un solvant de diméthylsulfoxide (DMSO) contenu dans un effluent industriel pharmaceutique généré pendant la fabrication de médicaments antirétroviraux. Les eaux usées ne peuvent pas être directement distillées pour récupérer le DMSO en présence du NaN3, en raison des risques d'explosion. En outre, l'élimination du DMSO augmente la charge de demande chimique en oxygène (DCO) sur les installations de traitement des effluents (ETP). Le processus développé comprend le traitement préalable de l'effluent pour éliminer les impuretés colloïdales et les solides en suspension suivi de l'électrodialyse au moyen de membranes d'échange d'anions et de cations empilées alternativement pour réduire la concentration en sels à des niveaux de valeur ppm. 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The wastewater cannot be directly distilled for DMSO recovery in the presence of NaN3, which could cause explosions. Moreover, disposal of the DMSO increases the chemical oxygen demand (COD) load on the effluent treatment plant (ETP). The developed process includes pretreatment of the effluent for the removal of colloidal impurities and suspended solids followed by electrodialysis using cation and anion-exchange membranes stacked alternately for reduction of the salts concentration to ppm levels. The desalted liquor is then subjected to two vacuum distillation steps for recovering pure DMSO solvent. La présente invention concerne l'élimination du sel d'azoture de sodium (NaN3) dangereux et sensible aux chocs conjointement avec du chlorure d'ammonium (NH4Cl) pour la récupération d'un solvant de diméthylsulfoxide (DMSO) contenu dans un effluent industriel pharmaceutique généré pendant la fabrication de médicaments antirétroviraux. Les eaux usées ne peuvent pas être directement distillées pour récupérer le DMSO en présence du NaN3, en raison des risques d'explosion. En outre, l'élimination du DMSO augmente la charge de demande chimique en oxygène (DCO) sur les installations de traitement des effluents (ETP). Le processus développé comprend le traitement préalable de l'effluent pour éliminer les impuretés colloïdales et les solides en suspension suivi de l'électrodialyse au moyen de membranes d'échange d'anions et de cations empilées alternativement pour réduire la concentration en sels à des niveaux de valeur ppm. La liqueur dessalée est ensuite soumise à deux étapes de distillation sous vide afin de récupérer le solvant DMSO pur.</abstract><oa>free_for_read</oa></addata></record>
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title	ELECTRODIALYSIS-DISTILLATION HYBRID PROCESS FOR THE RECOVERY OF DIMETHYLSULFOXIDE (DMSO) SOLVENT FROM INDUSTRIAL EFFLUENT
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