2) shallow gas reservoir
浅层气藏
1.
The distribution of shallow gas reservoirs in western Sichuan Depression: Examples from Luodai and Xinchang gas fields;
川西凹陷浅层气藏分布规律研究——以洛带和新场气田为例
2.
The shallow gas reservoir discovered in Shanle,Hongtai and Santanghu area are characterized by complex lithologies,poor physical property,unobvious response of logging,obvious productivity difference and sharp lateral variations of stratum etc.
以吐哈盆地鄯勒地区浅层气藏为研究目标,在对储层岩性、物性、电性、地层及测井特征分析的基础上对气层识别方法进行总结研究,在实际应用中取得了很好的效果。
3.
Gudong shallow gas reservoirs are typical shallow porous sandstone reservoirs which are at the late period of development at present.
孤东二区浅层气藏为典型的浅层疏松砂岩气藏,目前已进入开发后期。
3) shallow gas pool
浅层气藏
1.
The shallow gas pools of Shengli Oilfield are lithological trap,its buried depth is less than 1500m and mainly located in Neogene Guantao and Minghua Formation.
胜利油气区浅层气藏以岩性为主 ,埋藏深度小于 15 0 0m ,主要分布在上第三系馆陶组和明化镇组。
2.
In Shengli petroleum province,shallow gas pools,dominated by lithological trap,are less than 1500m in depth,and mainly located in Neogene Guantao and Minghuazhen Formation.
胜利油气区浅层气藏以岩性气藏为主 ,埋藏深度小于 15 0 0 m ,主要分布于上第三系馆陶组和明化镇组。
4) stratigraphic-lithologic reservoirs
地层-岩性油气藏
1.
Discussion on stratigraphic-lithologic reservoirs exploration in the aspect of the research history of reservoirs;
从油气藏研究的历史论地层-岩性油气藏勘探
5) lithostratigraphic hydrocarbon reservoir
岩性地层油气藏
1.
Geological theory and exploration technology for lithostratigraphic hydrocarbon reservoirs;
岩性地层油气藏地质理论与勘探技术
6) lithostratigraphic reservoir
岩性地层油气藏
1.
Exploration of Paleogene lithostratigraphic reservoir in western steep slope of Damintun Sag,Liaohe Oilfield;
大民屯凹陷西陡坡古近系岩性地层油气藏勘探
2.
In recent years,the proportion of reserve of lithostratigraphic reservoir in discovered oil/gas reserve in China as a whole has been over 50%.
岩性地层油气藏是储量增长最有潜力的领域。
补充资料:浅层地下埋藏
分子式:
CAS号:
性质:在地表下浅层(一般小于50m)处置放射性废物,工程屏障根据实际情况可有可无,其安全性主要取决于包气带土质类型和土层厚度,地表防护覆盖层厚度一般为几米。该方法是世界有核国家普遍采用的埋藏中低放固体废物的方法。近年来,“浅层地下埋藏”术语已为“近地表处置(埋藏)”(near-surface disposal)所替代,两者概念是一致的。
CAS号:
性质:在地表下浅层(一般小于50m)处置放射性废物,工程屏障根据实际情况可有可无,其安全性主要取决于包气带土质类型和土层厚度,地表防护覆盖层厚度一般为几米。该方法是世界有核国家普遍采用的埋藏中低放固体废物的方法。近年来,“浅层地下埋藏”术语已为“近地表处置(埋藏)”(near-surface disposal)所替代,两者概念是一致的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条