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(小2号宋体)新疆不同石油产区油污土壤含油量的测定*
(5号楷体)孙玉萍1,刘素辉1,徐晓燕2,赵丽萍2,毛元飞2,王红英1**
(小5号宋体)(新疆医科大学 1.基础医学院;2.药学系2006-2班,乌鲁木齐 830054)
(小5号黑体)摘要:目的 (小5号宋体)了解新疆不同油田产区油污土壤中石油的含量,为今后土壤的石油污染治理提供理论依据。(小5号黑体)方法 (小5号宋体)采用紫外分光光度法,选择不同波长分别测定克拉玛依油田和鄯善油田石油产区油污土壤中石油的含量。(小5号黑体)结果 (小5号宋体)克拉玛依油田重油和吐哈油田轻质油的最适合测量波长分别为254 nm和230 nm。(小5号黑体)结论 (小5号宋体)针对不同石油产区主要污染油种类,选择不同波长并建立了相应的回归方程。
(小5号黑体)关键词:(小5号宋体)紫外分光光度法;吸收波长;含油量
(小5号黑体)中图分类号:R124 (小5号黑体)文献标识码:A
* (小6号黑体)收稿日期:2010-12-07;(小6号黑体)修回日期:2011-01-29
(小6号黑体)基金项目:(小6号宋体)新疆医科大学校内创新基金项目(200708)
(小6号黑体)作者简介:(小6号宋体)孙玉萍(1967-),女,副教授,硕士生导师,博士,E-mail:sypmjj20080106@sina.com.cn
** (小6号黑体)通讯作者:(小6号宋体)王红英,副教授,硕士生导师,E-mail:why2029888@sina.com
(Times New Roman,4号加粗) Determination of mineral oilcontent insoil in differen oildom of Xinjiang
(Times New Roman,5号)SUN Yu-ping 1, LIU Su-hui 1, XU Xiao-yan 2,
ZHAO Li-ping2, MAO Yuan-fei2, WANG Hong-ying1
(Times New Roman,5号斜体)(1. College of Basic Medicine; 2. Class 2006-2 of PharmacyDepartment, Urumqi,
Xinjiang Medical University, Urumqi, Xinjiang 830011, China)
(Times New Roman,小5号加粗)Abstract: Objective (Times New Roman,小5号)To know petrolic content in oil in different oildom of Xinjiang, so as to provide theoritical basis for petroleum pollution of soil. (Times New Roman,小5号加粗)Methods (Times New Roman,小5号)Ultraviolet speetrophotometry of different absorbable wavelength was taken to determine petrolic content in different contaminated soil in Karamay and Shanshan. (Times New Roman,小5号加粗)Results (Times New Roman,小5号)The most favorable absorbable wavelength for heave oil and light oil were 254 nm and 230 nm.Standard curve was set up at these wavelength, with standard curve of heave oil of y=0.001 42+0.100 96x, r=0.999 49 , light oil of y=-0.001 34+0.066 93x, r=0.998 09. The petrolic content in contaminated soil was 0.86 mg/g in Karamay Oilfield and 1.868 mg/g in Tuyuke Oilfield. (Times New Roman,小5号加粗)Conclusions (Times New Roman,小5号)Standard curve is set up and determination of the petrolic content in the contaminated soil was lower in Karamay Oilfield than in Tuyuke Oilfield. It provides experimental way and scientific basis for pollution abatement of petroleum in soil.
(Times New Roman,小5号加粗)Key Words:(Times New Roman,小5号)Ultraviolet spectrophotometry; Absorbable wavelength; Oil conten
(5号黑体)1 材料与方法
(5号楷体)1.1 主要仪器和试剂 (5号宋体)UV-2500型紫外分光光度器,石油醚(60~90℃馏分),无水硫酸钠:在300℃下烘1 h,冷却后装瓶备用。
(5号楷体)1.3 标准油和检测液的配制
(5号宋体)1.3.1 重质油
(5号宋体)1.3.1.1 标准油的制备 用60~90℃石油醚从克拉玛依石油产区的原油中萃取,经无水硫酸钠脱水后过滤。
(5号黑体)2 结果
(5号楷体)2.1 克拉玛依油田重油标准曲线绘制 (5号宋体)在5个干燥的25 ml容量瓶中,准确移入0.75、1.0、1.25、1.50、1.75 ml重油的标准储备使用液,用石油醚稀释至标线,摇匀。标准曲线见图1。(略)
(小5黑体)图1 克拉玛依重油的标准曲线图
(图中文字小5宋体)
(小5黑体)表 1 克拉玛依油田土壤样品吸光度及及含油率
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样品
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y吸光度(A)
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重量(g)
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含油率(mg/g)
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对照
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-0.036
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5.08
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-0.04
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1
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0.438
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5.31
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0.86
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2
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0.360
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5.01
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0.75
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平均
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0.414
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5.09
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0.86
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(表格内容为小5宋体)
(5号楷体)2.4 吐哈油田石油产区轻油污染土壤中石油含油率 (5号宋体)准确称取吐哈油田油污土壤5 g左右置于广口瓶中。
表2
(5号黑体)3 讨论
(5号宋体)石油及其产品在紫外光区都有特征吸收区。带有苯环的芳香族化合物,主要吸收波长为250~260 nm,带有共轭双键的化合物主要吸收波长为215~230 nm。与其他文献相同[4]。(略)
(小5号黑体)参考文献:
[1] 莫菊青, 许云秀, 李仙果, 等. 用752紫外分光光度法测定废水中油类物质[J]. 山西化工[J]. 2003, 23(3): 32-33.(小5号宋体)(略)
全文最后要全部选中,再选Times New Roman,这样处理主要是针对数字和外文和符号。
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