液化气脱硫技术的发展现状研究

详细信息    查看全文 | 推荐本文 |

英文篇名：Research on the Development Status of Liquid Gas Desulfurization Technology 作者：龚伟 英文作者：Gong Wei;Guizhou Province Product Quality Supervision and Inspection Institute; 关键词：液化气 ; 脱硫技术 ; 吸附 ; 纤维膜 英文关键词：liquid gas;;sweetening;;adsoption;;fiber membrane 中文刊名：SDHG 英文刊名：Shandong Chemical Industry 机构：贵州省产品质量监督检验院; 出版日期：2018-12-23 出版单位：山东化工 年：2018 期：v.47;No.346 语种：中文; 页：SDHG201824018 页数：2 CN：24 ISSN：37-1212/TQ 分类号：57-58

摘要

阐述了Merox抽提-氧化脱臭技术、吸附脱硫技术、纤维膜脱硫技术、络合脱硫技术等液化气脱硫技术的发展现状,最后对液化气脱硫技术前景进行了展望。
        The development status of liquefied gas desulfurization technology such as Merox extraction-oxidation deodorization technology,adsorption desulfurization technology,fiber membrane desulfurization technology,alkali-free fixed bed desulfurization technology and complex desulfurization technology was described,and prospected its prospect.

引文

[1]莫娅南,王伯.液化气脱硫技术及其工业应用[J].炼油与化工,2011,22(05):15-17.
    [2]徐国庆,肖梅.固定床脱除液化石油气中的硫醇[J].工业催化,2002(05):23-25.
    [3]施小红,梁锋,吴晓春.轻质油品脱硫醇技术进展[J].化学工业与工程技术,2002(02):25-29.
    [4]秦日明.液化气脱硫醇工艺完善及节能减排要素分析[J].科技风,2017(16):125.
    [5]马洪霞.固体碱脱硫醇催化剂的制备及催化氧化硫醇性能研究[D].南京:南京工业大学,2003.
    [6]夏道宏,项玉芝,张洪滨,等.固体碱技术在液化气脱硫醇工艺中的应用[J].石油炼制与化工,2002(12):1-3.
    [7]刘新宇,崔凯燕,王海波,等.吸附法液化气脱硫研究进展[J].天然气化工(C1化学与化工),2017,42(01):127-134.
    [8]Li Z J,Jin S L,Zhang R,et al.Adsorption of thiophene,dibenzothiophene,and 4,6-dimethyl dibenzothiophene on activated carbons[J].Adsorpt Sci Technol,2016,34:227-243.
    [9]Danmaliki G I,Saleh T A.Influence of conversion parameters of waste tires to activated carbon on adsorption of dibenzothiophene from model fuels[J].J Clean Prod,2016,117:50-55.
    [10]Kim K S,Park S H,Park K T,et al.Removal of sulfur compounds in FCC raw C4using activated carbon impregnated with Cu Cl and Pd Cl2[J].Korean J Chem Eng,2010(27):624-631.
    [11]Baird T,Campbell K C,Holliman P J,et al.Cobalt-zinc oxide absorbents for low temperature gas desulfurization[J].JMater Chem,1999,9:599-605.
    [12]Wang J,Liang B,Parnas R.Manganese-based regenerable sorbents for high temperature H2S removal[J].Fuel,2013,107:539-546.
    [13]Li Q M,Li F.Synthesis of Co Cu2(BHTC)2and its application in adsorption desulfurization[J].Aust J Chem,2015,68:1524-1528.
    [14]Peralta D,Chaplais G,Simon-Masseron A,et al.Metalorganic framework materials for desulfurization by adsorption[J].Energy Fuels,2012,26:4953-4960.
    [15]Lea S,Gaelle D,Patrick G.Adsorption of hydrogen sulfide(H2S)on zeolite(Z):Retention mechanism[J].Chem Eng J,2016,287:47-53.
    [16]Berry E N.Mass transfer without mixing[J].Hydrocarbon Processing,1975,54(9):127-128.
    [17]游实光.纤维液膜接触器在原油脱硫醇工艺中的应用[J].石油化工设备,2007,36(5):76-77.
    [18]李金瑞,王运波,高笑,等.基于纤维液膜反应器的脱硫技术工业应用[J].当代化工,2016,45(9):2124-2127.
    [19]曹素娟.固定床无碱脱硫技术在液化气脱硫中的应用[J].当代化工,2009,38(04):340-342.
    [20]张玉芬,赵刚,申宝剑,等.液化气硫醇无碱转化组合工艺的开发及工业侧线试验[J].石油与天然气化工,2009,38(06):505-508.
    [21]罗立文,李怀禄,刘相.Fe-EDTA系统脱硫方法研究[J].石油大学学报,2006,20(5):73-76.