Sorption and phase distribution of ethanol and butanol blended gasoline vapours in the vadose zone after release 被引量：2

Sorption and phase distribution of ethanol and butanol blended gasoline vapours in the vadose zone after release

导出

摘要 The sorption and phase distribution of 20% ethanol and butanol blended gasoline （E20 and B20） vapours have been examined in soils with varying soil organic matter （SOM） and water contents via laboratory microcosm experiments. The presence of 20% alcohol reduced the sorption of gasoline compounds by soil as well as the mass distribution of the compounds to soil solids. This effect was greater for ethanol than butanol. Compared with the sorption coefficient （Kd） of unblended gasoline compounds, the Kd of E20 gasoline compounds decreased by 54% for pentane, 54% for methylcyclopentane （MCP） and 63% for benzene, while the Kd of B20 gasoline compounds decreased by 39% for pentane, 38% for MCP and 49% for benzene, The retardation factor （R） of E20 gasoline compounds decreased by 53% for pentane, 53% for MCP and 48% for benzene, while the R of B20 gasoline compounds decreased by 39% for pentane, 37% for MCP and 38% for benzene. For all SOM and water contents tested, the Kd and R of all gasoline compounds were in the order of unblended gasoline 〉 B20 〉 E20, indicating that the use of high ethanol volume in gasoline to combat climate change could put the groundwater at greater risk of contamination, The sorption and phase distribution of 20% ethanol and butanol blended gasoline （E20 and B20） vapours have been examined in soils with varying soil organic matter （SOM） and water contents via laboratory microcosm experiments. The presence of 20% alcohol reduced the sorption of gasoline compounds by soil as well as the mass distribution of the compounds to soil solids. This effect was greater for ethanol than butanol. Compared with the sorption coefficient （Kd） of unblended gasoline compounds, the Kd of E20 gasoline compounds decreased by 54% for pentane, 54% for methylcyclopentane （MCP） and 63% for benzene, while the Kd of B20 gasoline compounds decreased by 39% for pentane, 38% for MCP and 49% for benzene, The retardation factor （R） of E20 gasoline compounds decreased by 53% for pentane, 53% for MCP and 48% for benzene, while the R of B20 gasoline compounds decreased by 39% for pentane, 37% for MCP and 38% for benzene. For all SOM and water contents tested, the Kd and R of all gasoline compounds were in the order of unblended gasoline 〉 B20 〉 E20, indicating that the use of high ethanol volume in gasoline to combat climate change could put the groundwater at greater risk of contamination,

作者 Ejikeme Ugwoha John M. Andresen

机构地区 Chemical and Environmental Engineering School of Engineering and Physical Sciences

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2014年第3期608-616,共9页 环境科学学报（英文版）

关键词 butanol-blended gasoline ethanol-blended gasoline phase distribution soil organic matter soil water content sorption vadose zone butanol-blended gasoline ethanol-blended gasoline phase distribution soil organic matter soil water content sorption vadose zone

分类号 X50 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献1

1LI Ruijuan, WEN Bei, ZHANG Shuzhen, PEI Zhiguo, SHAN Xiaoquan State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences,Beijing 100085, China.Influence of organic amendments on the sorption of pentachlorophenol on soils[J].Journal of Environmental Sciences,2009,21(4):474-480. 被引量：3

二级参考文献32

1Braida W J, Pignatello J J, Lu Y F, Ravikovitch P I, Neimark A V, Xing B S, 2003. Sorption hysteresis of benzene in wood charcoal particles. Environmental Science and Technology, 37(2): 409-417.
2Chiou C T, Kile D E, Rutherford D W, Sheng G, Boyd S A, 2000. Sorption of selected organic compounds from water to a peat soil and its humic-acid and humin fractions: Potential sources of the sorption nonlinearity. Environmental Science and Technology, 34(7): 1254-1258.
3Comelissen G, Elmquist M, Groth I, Gustafsson O, 2004. Effect of sorbate planarity on environmental black carbon sorption. Environmental Science and Technology, 38(13): 3574-3580.
4Comelissen G, Gustafsson O, Bucheli T D, Jonker M T O, Koelmans A A, van Noort P C M, 2005. Extensive sorption of organic compounds to black carbon, coal, and kerogen in sediments and soils: mechanisms and consequences for distribution, bioaccumulation, and biodegradation. Environmental Science and Technology, 39(18): 6881-6895.
5Davies N A, Edwards P A, Lawrence M A M, Taylor M G, Simkiss K, 1999. Influence of particle surfaces on the bioavailability to different species of 2,4-dichlorophenol and pentachlorophenol. Environmental Science and Technology, 33(14): 2465-2468.
6Day P R, 1965. Particle fractionation and particle-size analysis. American Society of Agronomy: Madison WI, 545-567.
7Dercova K, Sejakova-Z, Skol0nova M, Barancikova G, Makovnikova J, 2006. Potential use of organomineral complex (OMC) for bioremediation of pentachlorophenol (PCP) in soil. International Biodeterioration and Biodegradation. 58(3-4): 248-253.
8Diaz-Flores P E, Leyva-Ramos R, Guerrero-Coronado R M, Mendoza-Barron J, 2006. Adsorption of pentachlorophenol from aqueous solution onto activated carbon fiber. Industrial and Engineering Chemistry Research, 45(1): 330-336.
9El-Sheikh A H, Newman A P, Al-Daffaee H K, Phull S S, Lynch D E, 2004. The use of activated carbons with basic properties for the treatment of 2-chlorophenol. Adsorption Science and Technology, 22(6): 451-461.
10Fingler S, Drevenkar V, Frobe Z, 2004. Sorption of chlorophenolates in soils and aquifer and marine sediments. Archives of Environmental Contamination and Toxicology, 48(1): 32- 39.

共引文献2

1孙瑞,凌婉婷,党红交,孙冰清.柠檬酸对土壤吸附五氯酚的影响[J].中国环境科学,2011,31(8):1321-1326. 被引量：12
2Yuanyuan Zhao,Laura A.Wendling,Changhui Wang,Yuansheng Pei.Use of Fe/Al drinking water treatment residuals as amendments for enhancing the retention capacity of glyphosate in agricultural soils[J].Journal of Environmental Sciences,2015,27(8):133-142. 被引量：3

同被引文献6

1吴健,沈根祥,黄沈发.挥发性有机物污染土壤工程修复技术研究进展[J].土壤通报,2005,36(3):430-435. 被引量：66
2Weiwei Zhang,Zhenping Qu,Xinyong Li,Yi Wang,Ding Ma,Jingjing Wu.Comparison of dynamic adsorption/desorption characteristics of toluene on different porous materials[J].Journal of Environmental Sciences,2012,24(3):520-528. 被引量：13
3龚亚炬,宋云,李培中,魏文侠.粉砂介质包气带中甲苯蒸气挥发的迁移转化[J].环境工程学报,2018,12(1):206-212. 被引量：2
4王梦杰,范婷婷,王祥,夏菲洋,姜登登,孔令雅,丁达,张胜田,邓绍坡.典型农药污染场地地下水中氯代脂肪烃自然衰减研究[J].环境科学学报,2022,42(6):155-166. 被引量：7
5孙琳,张敏,郭彩娟,宁卓,张瑜,秦骏,张巍.非水相液体污染场地源区自然消除研究进展[J].岩矿测试,2022,41(5):704-716. 被引量：3
6张孝飞,陈樯,邓绍坡,龙涛,黄耀,林玉锁.污染场地修复过程中挥发性有机物(VOCs)污染研究进展[J].生态与农村环境学报,2015,31(6):831-834. 被引量：14

引证文献2

1孙悦,李翀,曹谨慧,李佳轩,刘彦博,马杰.石油烃在不同土壤中的气相自然衰减规律[J].环境工程学报,2023,17(3):892-899. 被引量：2
2Yan Ma,Yi Shi,Deyi Hou,Xi Zhang,Jiaqi Chen,Zhifen Wang,Zhu Xu,Fasheng Li,Xiaoming Du.Treatability of volatile chlorinated hydrocarbon-contaminated soils of different textures along a vertical profile by mechanical soil aeration：A laboratory test[J].Journal of Environmental Sciences,2017,29(4):328-335. 被引量：3

二级引证文献5

1戚圣琦,侯德义,王轶冬,曹潇元.VOCs相间非平衡态迁移对土壤修复效果的影响[J].环境科学研究,2021,34(6):1464-1472. 被引量：9
2马妍,郑红光,史怡,张帆,姚珏君,赵威光,杜晓明.典型农药污染地块土壤中异味物质的筛查与分布特征研究[J].环境科学研究,2022,35(6):1482-1489. 被引量：15
3孙建强,徐健,张安平.相间非平衡态迁移对土壤苯系物修复的影响[J].浙江工业大学学报,2023,51(4):466-472.
4关俊杰,熊峰,蒋雨,乔建平,马志远,黄杰锐,万雨若,李正芳,林梦源,包育文,闫京瑞,费文博,马杰.基于碳排放的石化场地气相自然衰减定量研究[J].中国环境科学,2024,44(2):1064-1070.
5郭银河,章定文,祁妍敏,林文丽.基于高密度电阻率成像法的低渗黏土中轻非水相液体运移规律探索[J].环境工程学报,2024,18(1):261-269.

1李殿卿,朱卓群.脉冲——应答技术测定传递与吸附系数的最优化计算[J].计算机与应用化学,1990,7(4):289-294.
2朴海善,陶澍,胡海瑛,卢晓霞.根据水/辛醇分配系数(KOW)估算有机化合物的吸着系数(KOC)[J].环境科学与技术,1999(4):8-13. 被引量：15
3孙航,张立麒,李小姗,郑楚光.几种固体吸附剂对CO_2静态吸附性能的研究[J].热能动力工程,2016,31(2):93-98.
4姜勇飞.一起反应釜爆炸事故分析[J].化工安全与环境,2007,20(25):5-5. 被引量：1
5ZHANG Jie,LI Zhaojun,GE Gaofei,SUN Wanchun,LIANG Yongchao,WU Laosheng.Impacts of soil organic matter, pH and exogenous copper on sorption behavior of norfloxacin in three soils[J].Journal of Environmental Sciences,2009,21(5):632-640. 被引量：24
6唐洪涛,洪长嬉.静态混合器的应用设计[J].淀粉与淀粉糖,2004(1):9-13. 被引量：3
7宋治国.加油站环境因素与预防控制措施[J].现代经济信息,2007,0(4):42-43.
8李孝兰.用重铬酸钾氧化容量法测定土壤有机质关键技术[J].现代农村科技,2013(23):36-36. 被引量：7
9何红,朱复华.单螺杆挤出机的混合及应用[J].塑料,2001,30(2):28-32. 被引量：9
10王宗勇,陈超.多流道螺旋静态混合器混合性能的数值模拟研究[J].中国机械工程,2013,24(2):268-273. 被引量：22

Journal of Environmental Sciences

2014年第3期

浏览历史

内容加载中请稍等...