二连盆地富气凹陷低阶煤煤层气成因及成藏机制OA北大核心CSTPCD
Origin and accumulation mechanisms of coalbed methane in low-rank coals in gas-rich sags in the Erlian Basin
内蒙古低阶煤煤层气资源丰富,煤层气成因与成藏机制研究对低阶煤煤层气资源选区评价至关重要.以二连盆地重点富气凹陷低阶煤煤层气为研究目标,利用煤层气组分、碳/氢同位素、煤层水水质、氢/氧同位素及放射性同位素3H和14C测试等多种实验手段,分析煤层气、水地球化学特征,揭示低阶煤煤层气成因来源及成藏机制.结果表明,二连盆地煤层气组分以甲烷为主,均为干气,其中甲烷体积分数随埋深增加而增大,CO2 体积分数随埋深增加呈先增加后降低趋势,在300~500 m范围出现高值区.甲烷碳、氢同位素普遍偏轻,δ13C(CH4)分布在-70.3‰~-48.0‰,δD(CH4)分布在-285.5‰~-189.0‰,δ13C(CO2)在-37.6‰~1.94‰变化.煤层水化学类型主要为 HCO3-Na型和Cl·HCO3-Na型,现今煤层水体环境较为稳定,水动力较弱,煤层水表观年龄在 1 020~47 490 a,主要来源于第四纪大气降水,没有或较少有现今地表水补给.二连盆地煤层气主要为原生生物成因气,混有少量早期热成因气,随着埋深加大,地层环境和产甲烷古菌类型发生变化,生物甲烷生成途径发生转变.其中吉尔嘎朗图凹陷早期以乙酸发酵产气为主,晚期转变为CO2 还原产气为主,并混有少量低熟热成因气;巴彦花和霍林河凹陷微生物产气途径均以乙酸发酵为主,其中霍林河凹陷还混有少量甲基发酵型生物气.研究区具有适合生物气生成的低地温、低矿化度和低热演化程度的"三低"煤层条件,其中,吉尔嘎朗图凹陷属于地堑式浅部厚煤层生物气成藏模式,巴彦花和霍林河凹陷属于半地堑式中深部承压区水力封堵生物气成藏模式.寻找适合生物成因气形成和富集的有利目标区,应是二连盆地煤层气未来勘探开发的重点方向,也是二连盆地低阶煤煤层气增储上产的现实保障.
Inner Mongolia boasts abundant coalbed methane(CBM)resources in low-rank coals.Investigating the ori-gin and accumulation mechanisms of CBM is crucial for the siting and assessment of these CBM resources.This study examined the CBM in low-rank coals in major gas-rich sags of the Erlian Basin through various experiments,including tests of the composition and carbon/hydrogen isotopes of CBM,as well as tests of the water quality,hydrogen/oxygen isotopes,and radioisotopes(3H and 14C)of coal seam water.By analyzing the geochemical characteristics of both CBM and coal seam water,this study revealed the origin,sources,and accumulation mechanisms of CBM in low-rank coals within the study area.Key findings are as follows:(1)The CBM in the Erlian Basin is all dry gas and dominated by methane(CH4).With an increase in the burial depth,the CH4 volume fraction increases,whereas the CO2 volume frac-tion first increases and then decreases,peaking at depths between 300 and 500 m.The CH4 exhibits generally lighter car-bon and hydrogen isotopic values,with δ13C(CH4),δD(CH4),and δ13C(CO2)values ranging from-70.3‰ to-48.0‰,from-285.5‰ to-189.0‰,and from-37.6‰ to 1.94‰,respectively.(2)The coal seam water primarily has hydro-chemical types of HCO3-Na and Cl·HCO3-Na.The current coal seams feature a relatively stable water environment,with weak hydrodynamic conditions.The coal seam water,with apparent ages between 1 020 and 47 490 a,principally origin-ates from Quaternary meteoric water,with no or little recharge from modern surface water.(3)The CBM in the Erlian Basin is predominantly composed of original biogenic gas,mixed with a minor amount of early thermogenic gas.With an increase in the burial depth,the stratigraphic environment and types of methanogenic archaea change,with the gener-ation paths of biogenic methane also shifting.In the early stage,the biogenic methane in the Jiergalangtu sag was primarily derived from acetic acid fermentation.In the late stage,it predominantly originated from CO2 reduction in the late stage,mixed with a small quantity of low-maturity thermogenic gas.In contrast,the biogenic methane in both Bayanhua and Huolinhe sags was principally sourced from acetic acid fermentation.Besides,the biogenic methane in the Huolinhe sag contains a trace amount of biogenic gas from methyl fermentation.(4)The study area has coal seam condi-tions favorable for biogenetic gas generation,such as low geotemperatures,low total dissolved solids(TDS)content,and low thermal maturity.The Jiergalangtu sag exhibits a graben-type biogenetic-gas accumulation mode in shallow thick coal seams,while the Bayanhua and Huolinhe sags display a half-graben-type biogenetic-gas accumulation mode with hydraulic sealing in moderately deep confined areas.Identifying favorable target areas for the formation and enrichment of biogenic gas should be the focus of subsequent exploration and production of CBM in the Erlian Basin.Besides,it is practically significant for reserve growth and production addition of CBM in low-rank coals in the basin.
林海涛;李玲;唐淑玲;田文广;李杰;孟芹
内蒙古煤勘非常规能源有限责任公司,内蒙古 呼和浩特 010010||内蒙古煤勘新能源开发有限公司,内蒙古 呼和浩特 010010中国地质大学(北京)能源学院,北京 100083中国石油勘探开发研究院,北京 100083
地质学
二连盆地煤层气成因低阶煤生物成因气煤层水成藏机制
Erlian Basincoalbed methane genesislow rank coalbiogenic gascoal seam wateraccumulation mechan-ism
《煤田地质与勘探》 2024 (002)
60-69 / 10
中国石油天然气股份有限公司"十四五"前瞻性基础性重大科技项目(2021DJ2303);中央引导地方科技发展资金项目(2022ZY0018)
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