溶剂法提纯硫磺的工艺研究
收稿日期: 2023-10-11
网络出版日期: 2024-08-01
Study on purification process of sulfur by solvent method
Received date: 2023-10-11
Online published: 2024-08-01
为了解决天然气净化过程中副产物硫磺提纯难度大、提纯后硫磺纯度低的问题,结合溶剂萃取法操作简单、成本低等优势,利用相似相溶的原理,以CS2为溶剂设计了一种用溶剂法提纯硫磺的工艺。通过干燥时间考察了硫磺渣中的含水量,以硫磺产率为指标,考察了硫磺渣干燥时间、液固比、浸取时间、浸取温度和球磨粉碎对硫磺产率的影响,并通过XRD及ICP分析了纯化后硫磺的纯度。结果表明,硫磺渣干燥时间为60 min、液固比(体积质量比,mL/g)为8∶1、浸取时间为30 min、浸取温度为30 ℃及球磨成粉时,硫磺产率最佳。相较于传统的熔融法(85.7%)和气化法(85.37%)工艺,溶剂法工艺提纯硫磺后产率高达87.8%,提高了2.5%左右,且提纯后硫磺的纯度高达99.89%。该溶剂法提纯硫磺的工艺具有产率较高且纯度高、操作简单的优势,为有效处理硫磺提纯提供了技术路线,同时在硫磺纯化方面具有广阔的应用前景。
杨立 , 罗孝雄 , 黄俊莉 , 李静 , 骆敏珠 . 溶剂法提纯硫磺的工艺研究[J]. 无机盐工业, 2024 , 56(7) : 69 -73 . DOI: 10.19964/j.issn.1006-4990.2023-0487
In order to address the challenges of purifying sulfur as a by⁃product of the natural gas purification process and achieving high purity,combining the advantages of simple operation and low cost of solvent extraction method,and utilizing the principle of similar solubility,a process for purifying sulfur using solvent method was designed using CS2 as the solvent.The moisture content in sulfur slag was investigated through drying time,and the effects of drying time,liquid⁃solid ratio,leaching time,leaching temperature,and ball milling on sulfur yield were investigated using sulfur yield as an indicator.The purity of purified sulfur was analyzed by XRD and ICP.The results demonstrated that the optimal sulfur yield was achieved with a drying time of 60 min,a liquid⁃solid ratio of 8∶1(mL/g),a leaching time of 30 min,a leaching temperature of 30 ℃,and sulfur crushed into powder through ball milling.The solvent method yielded a remarkable 87.8%,representing a 2.5% increase compared to traditional sulfur purification methods such as the melting method(85.7%) and the gasification method(85.37%).Furthermore,the purified sulfur exhibited an impressive purity of 99.89%.The solvent method offered significant advantages including high yield,high purity,and simplicity of operation,thereby providing an effective technical approach for sulfur purification and holding potential for widespread application.
Key words: sulfur; carbon disulfide; solvent method; purification
| 1 | 马新华.天然气与能源革命:以川渝地区为例[J].天然气工业,2017,37(1):1-8. |
| MA Xinhua.Natural gas and energy revolution:A case study of Sichuan-Chongqing gas province[J].Natural Gas Industry,2017, 37(1):1-8. | |
| 2 | 杨立,罗孝雄,李忠良,等.含硫气田水闪蒸气硫粒自动装袋技术[J].天然气工业,2022,42(11):49. |
| 3 | 张怿涵,姚培,徐洋,等.聚乙烯基溴代咪唑离子液体的制备及其油品脱硫性能[J].现代化工,2021,41(12):120-124. |
| ZHANG Zehan, YAO Pei, XU Yang,et al.Preparation of polyvinyl bromoimidazole ionic liquids and desulfurization performance for oil products[J].Modern Chemical Industry,2021,41(12):120- 124. | |
| 4 | 赵景峰,孙广平,张钢强,等.高含硫天然气净化装置闪蒸气节能工艺优化[J].天然气工业,2013,33(7):108-112. |
| ZHAO Jingfeng, SUN Guangping, ZHANG Gangqiang,et al.Optimization of the flash gas treatment process for a high-H2S natural gas purification plant[J].Natural Gas Industry,2013,33(7):108-112. | |
| 5 | MASLOBOEVA S M, ARUTYUNYAN L G, PALATNIKOV M N,et al.Separation and purification of tantalum from plumbomicrolite of amazonite deposit in Kola Peninsula by acid leaching and solvent extraction[J].Journal of Central South University,2021, 28(1):72-88. |
| 6 | 刘振冲,杜昭,马海彬.硫化氢干法脱除技术及硫磺回收研究进展[J].应用化工,2023,52(3):911-916. |
| LIU Zhenchong, DU Zhao, MA Haibin.Research progress of hydrogen sulfide removal technology and sulfur recovery[J].Applied Chemical Industry,2023,52(3):911-916. | |
| 7 | 林青.川中地区含硫气田水闪蒸气脱硫除臭工艺应用现状与优化建议[J].油气田环境保护,2023,33(1):6-10,15. |
| LIN Qing.Application status and optimization suggestions of flash vapor desulfurization and deodorization technology in sulfur gas fields water in central Sichuan[J].Environmental Protection of Oil & Fields Gas,2023,33(1):6-10,15. | |
| 8 | 彭维茂,陈世明,宋磊,等.硫磺回收装置停工热氮除硫工艺研究[J].石油与天然气化工,2022,51(1):1-6. |
| PENG Weimao, CHEN Shiming, SONG Lei,et al.Study on hot nitrogen sulfur removal process during shutdown of sulfur recovery unit[J].Chemical Engineering of Oil & Gas,2022,51(1):1-6. | |
| 9 | 苏雪梅,汪初雷,先玉生,等.钛石膏制备硫化钙回收硫磺工艺研究[J].非金属矿,2022,45(1):12-14. |
| SU Xuemei, WANG Chulei, XIAN Yusheng,et al.Study on recovery process of sulfur from calcium sulfide prepared by red gyps?um[J].Non?Metallic Mines,2022,45(1):12-14. | |
| 10 | SUKHANOV M V, STOROZHEVA T I, EVDOKIMOV I I,et al.Fine purification of monoisotopic 32S and 34S[J].Inorganic Materials,2017,53(2):142-147. |
| 11 | 吴熙,胡学伟,宁平,等.基于硫循环的烟气生化脱硫及硫磺回收的过程机理[J].中国环境科学,2019,39(3):954- 959. |
| WU Xi, HU Xuewei, NING Ping,et al.Biochemical desulfurization of flue gas and process mechanism of sulfur recovery based on sulfur cycle[J].China Environmental Science,2019,39(3):954-959. | |
| 12 | 崔凯燕.高含硫天然气净化厂闪蒸过程模拟及闪蒸气回收技术研究[D].东营:中国石油大学(华东),2014. |
| CUI Kaiyan.Flash process simulation and flash gas recovery technology study on high sulfur natural gas purification plant[D].Dongying:China University of Petroleum(Huadong),2014. | |
| 13 | SARAPAJEVAITE G, BALTAKYS K.Purification of sulfur waste under hydrothermal conditions[J].Waste and Biomass Valorization,2021,12(6):3407-3416. |
| 14 | 杨安,何金龙,刘可,等.炼油厂硫磺回收装置加氢尾气有机硫脱除溶剂研究[J].石油与天然气化工,2021,50(3):14-19. |
| YANG An, HE Jinlong, LIU Ke,et al.Research on organic sulfide removal solvent from hydrogenation tail gas of sulfur recovery unit in refinery[J].Chemical Engineering of Oil & Gas,2021, 50(3):14-19. | |
| 15 | 陈延信,王聪,赵博,等.气体硫磺预还原磷石膏制贝利特硫铝酸盐水泥[J].非金属矿,2021,44(1):9-12. |
| CHEN Yanxin, WANG Cong, ZHAO Bo,et al.Preparation of sulphoaluminate cement by pre?reduction of phosphogypsum with gas sulfur[J].Non?Metallic Mines,2021,44(1):9-12. | |
| 16 | 张晓刚,彭传波.20×104 t/a硫磺回收装置液硫池废气回收技术应用分析[J].石油与天然气化工,2021,50(3):30-34,39. |
| ZHANG Xiaogang, PENG Chuanbo.Application analysis of waste gas recovery technology in liquid sulfur pool of 20×104 t/a sulfur recovery unit[J].Chemical Engineering of Oil & Gas,2021,50(3):30-34,39. | |
| 17 | GUNARATNA T A N R, PRAJAPATI P K, NALIN DE SILVA K M,et al.Comparision of traditional and laboratory methods of sulphur processing[J].Journal of Ayurveda and Integrative Medicine,2023,14(4):100751. |
| 18 | 郑晓薇,魏在兴.改良天然气吹硫工艺在硫磺回收装置的应用[J].石油与天然气化工,2020,49(2):8-13. |
| ZHENG Xiaowei, WEI Zaixing.Application of improved process of blowing off residual sulfur with natural gas on sulfur recovery unit[J].Chemical Engineering of Oil & Gas,2020,49(2):8-13. |
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