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海底环境促使C4, C5异构体分异因素的研究
陈立雷1,2,3, 贺行良1,2, 刘昌岭1,2, 张培玉3, 张媛媛1,2, 李 凤1,2
1.国土资源部 天然气水合物重点实验室;2.青岛海洋地质研究所;3.青岛大学 环境科学与工程系
摘要:
模拟海底微环境, 研究促使C4, C5 异构体分异的因素。39 d 后, i-C4/n-C4变化率: 灭菌固液混合组为1.67 %, 灭菌固液分离组为7.96 %, 未灭菌固液混合组为2.54 %, 未灭菌固液分离组为14.21 %;i-C5/n-C5变化率: 灭菌固液混合组为1.19 %, 灭菌固液分离组为8.18 %, 未灭菌固液混合组为2.26 %,未灭菌固液分离组为10.19 %。表明海底环境对烷烃组分产生复杂的溶解、吸附和生物降解作用, 使异构体产生分异效应; 碳原子数增加, 综合作用相对减弱; 同碳原子数, 对正构烷烃的作用效果更显著。碳同位素分析发现: i-C4n-C4, i-C5n-C5的δ13C 均有微弱的变重趋势, CO2的δ13C 则发生明显的变轻趋势, 并且未灭菌组比灭菌组变化大。表明海底环境使烷烃组分发生了碳同位素分馏, 生物降解作用显著。
关键词:  i-C4/n-C4  i-C5/n-C5  分异  模拟实验  海底环境  油气微生物
DOI:10.11759/hykx20130112002
分类号:
基金项目:“127”国家专项项目(GZH201100310)
Study of factors leading to differentiation of C4 and C5 in submarine environment
Abstract:
The factors leading to differentiation of C4 and C5 in submarine environment were studied by simulating the submarine environment in the laboratory. The results showed that after 39 days, the changing rate of i-C4/n-C4 was 1.67% in sterile solid-liquid mixing headspace vial, 7.96% in sterile solid-liquid separate one, 2.54% in non-sterile solid-liquid mixing one, and 14.21% in non-sterile solid-liquid separate one. On the other hand, the changing rate of i-C5/n-C5 was 1.19% in sterile solid-liquid mixing headspace vial, 8.18% in sterile solid-liquid separate one, 2.26% in non-sterile solid-liquid mixing one, and 10.19% in non-sterile solid-liquid separate one. These showed that the factors causing differentiation of C4 and C5 include the complex solution, adsorption and biodegradation. And with the increase of carbon atoms, the combined effects were weakened. The effects on the n-alkanes were more significant if the hydrocarbons have the same number of carbon atoms. The carbon isotopic composition analysis showed that the δ13C of i-C4n-C4, i-C5 and n-C5 was heavier, but the δ13C of CO2 was relatively lighter. The changes of non-sterile test group were more significant than the sterilized test group. These showed that the submarine environment caused carbon isotope fractionation in the hydrocarbon components, and the biological degradation played an important role in the submarine environment.
Key words:  i-C4/n-C4  i-C5/n-C5  differentiation  simulation experiment  submarine environment  oil and gas microorganisms
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