EVALUATION OF THE HYDROCARBON GENERATION POTENTIAL OF SOURCE ROCKS OF THE JURASSIC YAOJIE FORMATION IN MULI DEPRESSION OF QILIAN MOUNTAINS
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摘要:
祁连山木里坳陷侏罗系窑街组煤系泥岩和煤有机质丰度、有机质类型和有机质成熟度分析结果表明, 窑街组煤系泥岩为好的烃源岩, 有机质类型为Ⅱ1型, 处于成熟阶段, 以生油为主, 生气为辅; 煤为差等烃源岩, 有机质类型为Ⅲ型, 处于成熟阶段, 富氢基质镜质体含量高, 具有一定的生烃潜力。综合其它层位烃源岩分析结果, 认为窑街组煤系泥岩和晚三叠世尕勒得寺组湖相泥岩为祁连山木里地区天然气水合物的主要气源岩。
Abstract:The research results of the abundance, types and maturity of the organic matter of mudstone and coal seam of Yaojie coal-bearing formation in Muri depression of Qilian Mountains show that the mudstone of Yaojie coal-bearing formation is good hydrocarbon source rock and the organic matter type is sapropelic-humic (Ⅱ1) during the mature stage in which gas generation is predominant. While the coal seams are relatively poor hydrocarbon source rocks, with the organic matter of humic type (Ⅲ) at the mature stage, which have a certain hydrocarbon generating potential. Based on the analysis of hydrocarbon source rocks in others formation, it is concluded that the mudstone of Yaojie coal-bearing formation and the lacustrine mudstone of Galedesi formation in late Triassic are the main source rocks of gas hydrates in Muri depression.
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Key words:
- Yaojie Formation /
- hydrocarbon generation potential /
- Muli depression /
- Qilian Mountains
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表 1 窑街组烃源岩参数统计
Table 1. Parametric statistics of source rocks in Jurassic Yaojie Formation
采样点 岩性 TOC/% (S1+S2)/(mg·g-1) IH/(mg·g-1) Ro/% Tmax/℃ D/% a b c d a b c d a b c d a b c d a b c d a b c d 聚
乎
更
煤
区一露天 泥岩 5 1.28 5.89 3.29 5 1.23 11.22 4.37 5 57 178 99 / / / / 5 447 462 455 5 5.67 19.8 9.67 煤 56 42.00 88.26 85.31 56 28.72 166.5 98.8 56 111 254 194 5 0.96 1.1 1.03 56 425 471 452 56 9.57 27.2 16.9 二露天 煤 8 44.84 78.21 62.28 8 11.84 84.37 33.54 8 88 168 125 4 0.51 0.83 0.71 8 429 438 433 8 7.47 14.5 10.9 三露天 泥岩 3 2.17 4.45 3.01 3 3.11 7.23 4.68 3 147 160 156 / / / / 3 448 449 448 3 14.3 14.9 14.7 煤 13 38.59 87.71 69.56 13 9.14 187.43 111.62 13 70 382 240 4 0.48 0.85 0.67 13 424 447 437 13 5.97 32.0 20.3 四井田 泥岩 4 1.93 4.58 3.3 4 2.32 12.27 6.49 3 99 408 211 1 0.83 0.83 0.83 4 448 460 454 3 8.78 35.4 18.4 煤 14 68.64 87.03 80.9 14 63.86 171.47 131.38 14 171 298 237 3 0.89 0.95 0.91 14 439 454 448 14 14.7 25.8 20.6 冬库矿区 煤 5 80.53 85.24 82.76 5 40.1 53.7 44.58 5 131 170 150 2 0.74 0.87 0.8 5 433 438 436 5 11.8 15.5 13.4 弧山矿区 煤 8 39.33 90.28 72.55 8 11.21 27.95 17.88 8 24 58 39 5 1.53 2.06 1.86 8 516 531 524 8 2.05 4.94 3.27 江仓矿区 煤 17 65.08 91.46 82.66 17 66.74 161.75 119.38 17 107 359 224 5 0.87 1.44 1.09 17 454 482 467 17 9.03 30.4 19 全区
平均值泥岩 12 1.28 5.89 3.22 12 1.23 12.27 5.18 11 57 408 149 1 0.83 0.83 0.83 12 447 462 453 11 5.67 35.4 13.4 煤 121 38.59 92.9 80.26 121 9.14 187.43 94.93 121 24 382 191 28 0.48 2.51 1.06 121 424 531 455 121 2.5 32 16.5 注:TOC—总有机碳;S1+S2—生烃潜量;IH—氢指数;Ro—镜质体反射率;Tmax—岩石热解峰温;D—降解率;a—样品数;b—最小值;c—最大值;d—平均值 
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表 2 侏罗系窑街组煤显微组分组成
Table 2. Coal macerals in the Jurassic Yaojie Formation
显微组分 样品件数 最小值 最大值 平均值 镜质组/% 28 80.74 97.74 87.90 惰性组/% 28 1.75 16.84 10.43 壳质组/% 28 0 5.26 1.10 腐泥组/% 28 0 5.26 0.53 基质镜质体/% 28 21.43 71.97 51.51 类型指数(Ti) 28 -79.21 -59.65 -75.27 类型 Ⅲ
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表 3 窑街组煤干酪根碳同位素
Table 3. The δ13C analysis of kerogen in the coal of Yaojie Formation
样品 δ13C/‰ B038-1 -24.8 H040 -23.6 H073 -25.3 B302-2 -24.1 H342 -24.0 H344 -23.7 B349-1 -23.3 H361 -23.8 H683 -24.0 H379 -24.2
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