Simultaneous Removal of H2S and Organosulfur Compounds from Liqueifed Petroleum Gas Using Formulated Solvents：Solubility Parameter Investigation and Industrial Test

The performance of four formulated solvents (labeled as UDS-I, UDS-II, UDS-III, and UDS-IV) for removing methyl mercaptan from liqueifed petroleum gas was predicted based on a two-dimensional solubility parameter theory. The calculation results show that UDS-IV has the closest solubility parameter t...

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Veröffentlicht in:	中国炼油与石油化工（英文版） 2015 (1), p.75-81
Hauptverfasser:	Zhang Feng, Shen Benxian, Sun Hui, Liu Jichang, Shang Jianfeng
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creator	Zhang Feng Shen Benxian Sun Hui Liu Jichang Shang Jianfeng
description	The performance of four formulated solvents (labeled as UDS-I, UDS-II, UDS-III, and UDS-IV) for removing methyl mercaptan from liqueifed petroleum gas was predicted based on a two-dimensional solubility parameter theory. The calculation results show that UDS-IV has the closest solubility parameter to that of methyl mercaptan as compared with other tested solvents, indicating the strongest afifnity and the highest solubility for methyl mercaptan. The industrial tests at a plant for desulfurization of LPG produced from the delayed coker have shown that the UDS solvents have the excellent performance for removal of organosulfur compounds (mainly methyl mercaptan). Although the sulfur loading dramatically increases, the total sulfur content of LPG treated with UDS-IV can be reduced by about 50% in comparison withN-methyl diethanolamine. In addition, UDS-IV has superior regeneration performance and selectivity for sulfur compounds over hy-drocarbons. The industrial test and the solubility parameter calculation results are in good agreement with each other.
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The calculation results show that UDS-IV has the closest solubility parameter to that of methyl mercaptan as compared with other tested solvents, indicating the strongest afifnity and the highest solubility for methyl mercaptan. The industrial tests at a plant for desulfurization of LPG produced from the delayed coker have shown that the UDS solvents have the excellent performance for removal of organosulfur compounds (mainly methyl mercaptan). Although the sulfur loading dramatically increases, the total sulfur content of LPG treated with UDS-IV can be reduced by about 50% in comparison withN-methyl diethanolamine. In addition, UDS-IV has superior regeneration performance and selectivity for sulfur compounds over hy-drocarbons. The industrial test and the solubility parameter calculation results are in good agreement with each other.</description><identifier>ISSN: 1008-6234</identifier><language>eng</language><publisher>State Key Laboratory of Chemical Engineering, East China University of Science and Technology, Shanghai 200237%SIN0PEC Zhongyuan 0ilifeld Puguang Company,Dazhou,635002</publisher><ispartof>中国炼油与石油化工（英文版）, 2015 (1), p.75-81</ispartof><rights>Copyright © Wanfang Data Co. Ltd. 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The calculation results show that UDS-IV has the closest solubility parameter to that of methyl mercaptan as compared with other tested solvents, indicating the strongest afifnity and the highest solubility for methyl mercaptan. The industrial tests at a plant for desulfurization of LPG produced from the delayed coker have shown that the UDS solvents have the excellent performance for removal of organosulfur compounds (mainly methyl mercaptan). Although the sulfur loading dramatically increases, the total sulfur content of LPG treated with UDS-IV can be reduced by about 50% in comparison withN-methyl diethanolamine. In addition, UDS-IV has superior regeneration performance and selectivity for sulfur compounds over hy-drocarbons. 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title	Simultaneous Removal of H2S and Organosulfur Compounds from Liqueifed Petroleum Gas Using Formulated Solvents：Solubility Parameter Investigation and Industrial Test
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