TRI-DIMENSIONALLY MULTI-MEDIA SAMPLING AND ITS APPLICATION IN THE HYDROCARBON GEOCHEMICAL EXPLORATION IN THE NORTH YELLOW SEA BASIN
-
摘要: 由于不同环境条件下,不同化探测试指标受到不同的因素干扰,所以不同介质样品的应用条件存在一定的差异。针对不同介质样品特点,分别采集海底沉积物、底部海水和低空大气3种介质样品,并采用在海底沉积物柱状样不同深度部位取样的立体取样方法,通过多指标综合分析,对不同介质和深度样品的多项化探指标互相进行了验证和补充,可以抑制干扰因素的影响,为油气资源远景评价提供依据。运用该方法在北黄海盆地油气勘查中进行初步尝试,并据此划分了三级化探异常区,提出了有利的含油气远景区,均与已知油气区和区域地质分析的结果相符合,取得了很好的效果。Abstract: Under the different environment conditions,the availability of the geochemical indicators is largely affected by different factors,thus leading to the differences of the application for different media samples.Being aimed at the characteristics of different media samples,the samples from marine bottom sediments,bottom seawater and lower air were collected by using the tri-dimensionally multi-media sampling method.By using this useful sampling method,as well as the multi-indicators integrative analysis,the results of the samples from different media and depth can be validated and reinforced and the disturbing effects of different factors could be well eliminated.The result can provide the foundation for hydrocarbon resource evaluation.By using this method in the North Yellow Sea Basin,three classes of geochemical anomalous areas have been determined and several potential hydrocarbon targets have been brought forward,which have the good correlation with existing oil and gas areas and geological analytical results.
-
[1] 贾建谊,顾惠荣.东海西湖凹陷含油气系统与油气资源评价[M].北京:地质出版社,2002.10~12 [2] 李维显.东海海礁凸起及邻近海区油气表层地球化学勘探[J].石油实验地质,2003,25(2):190~196 [3] 秦建中,钱志浩,曹寅等.油气地球化学新技术新方法[J].石油实验地质,2005,27(5):519~528 [4] 夏响华.油气地表地球化学勘探技术的地位与作用前瞻[J].石油实验地质,2005,27(5):529~533 [5] 张建培,王飞.海洋油气地球化学勘探——以东海某研究区为例[J].石油实验地质,1997(4):332~336 [6] 李武,姚志温.海洋油气化探干扰因素及抑制方法研究[J].石油勘探与开发,1995,22(3):51~53 [7] 许东禹,刘锡清,张训华.中国近海地质[M].北京:地质出版社,1997.135~136 [8] 沿海大陆架及毗邻海域油气区石油地质志编写组.沿海大陆架及毗邻海域油气区(上册)[M].北京:石油工业出版社,1990.263~265 [9] Massoud M S,Kinops S D,Scott A C,et al.Oil source rock potential of the lacustrine Jurassic Sim Unju Formation,West Korea Bay Basin; Part Ⅰ:Oil-Source rock correlation and environment of deposition[J].Journ Petrol Geol,1991,14 (4):365~385 [10] Massoud M S,Scott A C,Mattey D,et al.Oil source rock potential of the lacustrine Jurassic Sim Unju Formation,West Korea Bay Basin;Part Ⅱ:Nature of the organic and hydrocarbon-generation history[J].Journ Petrol Geol,1993,16 (3):265~284 [11] 杨育斌,张金来,吴学明等.油气地球化学勘查[M].武汉:中国地质大学出版社,1995.5~6 [12] 刘崇禧,赵克斌,余刘应等.中国油气化探40年[M].北京:地质出版社,2001.1~208 [13] 黄福林,张训华,夏响华等.中国东部和海域低层大气甲烷及其同系物分布[J].科学通报,1998,43(16):1767~1771 [14] 程思海,陈道华,张欣等.海底天然气水合物地球化学探测技术[J].海洋地质动态,2003,19(10):30~34 [15] 龚建明,刘闯,卢振权等.新一代卫星遥感技术在国际海底天然气水合物勘查中的应用[J].海洋地质动态,2002,18(2):29~31
计量
- 文章访问数: 709
- HTML全文浏览量: 75
- PDF下载量: 273
- 被引次数: 0