Sébastien Gonnard scite author profile

Sébastien Gonnard

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8Citation Statements Given

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IFP Énergies nouvelles

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COSWEET^TM: A New Process to Reach Very High COS Specification on Natural Gas Treatment Combined with Selective H₂S Removal

Magné-Drisch

Gazarian

Gonnard

et al. 2016

Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles

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-COSWEET TM , developed for the treatment of COS containing natural gases, is based on a combination of deacidification with any alkanolamine solution and COS hydrolysis on a metal oxide based catalyst. Nearly complete COS conversion is reached, even at a relatively low operating temperature. Coupled with a classical sweetening unit, in which an adapted alkanolamine solvent is used in order to optimise the removal of H 2 S, CO 2 , as well as the H 2 S/CO 2 selectivity, the high catalyst activity and the original integration of the scheme secure the COS removal at minimum extra cost. Benefits on capital and operating expenditures of the plant result both from the reduction of the absorption column and solvent flow rate and from the quality of the acid gas which has positive consequences on the design of the sulfur recovery facilities units, including Claus unit. This paper presents the complete development process approach and the results obtained on COS conversion, the model and simulation tool as well as a case study showing the advantages of coupling COSWEET TM to amine based solvent.Résumé -COSWEET TM : procédé innovant de traitement du gaz naturel combinant une élimination sélective de l'H 2 S et une spécification poussée sur le COS -COSWEET TM , procédé développé pour le traitement du gaz naturel comportant du COS, est une intégration entre un procédé de désacidification à base d'une solution d'alcanolamine et une section catalytique assurant l'hydrolyse du COS à l'aide d'un catalyseur à base d'oxyde métallique. Ce procédé permet d'atteindre des conversions du COS proches de 100 % à basses températures. Lorsque la section catalytique est couplée à une section de désacidification mettant en oeuvre un solvant à base d'une alcanolamine adaptée de telle manière à optimiser l'élimination de l'H 2 S et du CO 2 et également la sélectivité H 2 S/CO 2 , la forte activité du catalyseur et l'intégration originale des deux sections permettent de garantir une spécification sur le COS tout en minimisant les coûts de traitement. Les gains sur les coûts d'investissements et opératoires sont dus non seulement à la réduction de la taille de l'absorbeur et du débit de solvant mais également à la qualité du gaz acide, qui impacte la chaîne soufre en aval, comprenant l'unité Claus.

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Traitement du gaz naturel

Magné-Drisch¹,

Gonnard²

2015

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