摘要
从煤储层甲烷碳氢同位素组成、甲烷与水的氢同位素值的定量关系、煤层气田产出水的来源3个方面探讨了淮北煤田芦岭矿区煤层气的成因,结果表明:煤层气组分中甲烷气占绝对优势(达97%以上),且明显显示出极干气的特征;甲烷碳和氢同位素值范围分别为-67.6‰^-64.2‰,-206‰^-224‰,属于生物成因气的分布范围;甲烷氢同位素值(δD(CH4))和水氢同位素值(δD(H2O))定量关系表明,煤层甲烷气主要是二氧化碳还原作用生成的次生生物成因气;煤层水样品点同位素值均落在大气降水线附近,说明煤层水的主要来源为大气降水,符合生物成因气生成需有雨水补给的条件。综合3个方面定性和定量分析结果,并结合研究区构造-热演化史,认为现今淮北煤田芦岭矿区的煤层气主要为次生生物成因气。
Discussed the origins of coalbed methane in Luling Coal Mine of Huaibei coalfield from the aspects of car- bon and hydrogen isotope of methane, the quantitative relationship between δD( CH4 ),δD( H20) and the source of coalbed produced water. The results reveal that the methane is predominant(up to 97% ) and is thought as extremely dry. 6j3 C ( CH4 ) from -67.6%0 to -64.2%e and 6D ( CH4 ) from -206%e to -224%, so it is in the range of biogenic gas. Quantitative relationship between 6D ( CH4 ) and 6D ( Hz O) indicates that the methane mainly generated by carbon dioxide is biogenic methane. Hydrogen and oxygen of water sample falls near the meteoric water line, indicating they are all from precipitation, so it meets the condition of water supply for generation of biogenie methane. Therefore, in- tegrating the above three aspects of qualitative and quantitative analysis and the history of teetono-thermal, that the extant methane is secondary microbial origin in Luling Coal Mine of Huaibei coalfield is concluded.
出处
《煤炭学报》
EI
CAS
CSCD
北大核心
2013年第2期288-293,共6页
Journal of China Coal Society
基金
国家科技重大专项资助项目(2011ZX05060-005)
国家自然科学基金资助项目(41030422
40972131)
中国科学院战略性先导科技专项资助项目(XDA05030100)
关键词
煤层气成因
次生生物气
碳氢同位素
氢氧同位素
淮北煤田
origins of eoalbed methane
secondary biogenic gas
carbon and hydrogen isotope
hydrogen and oxygen i- sotope
Huaibei coalfield
作者简介
佟莉(1985-),女,河北唐山人,硕士。E—mail:tongli12042009@163.com。
通讯作者:琚宜文(1963-),男,安徽桐城人,教授,博士生导师。E-mail:juyw03@163.com
