岩性油气藏
巖性油氣藏
암성유기장
LITHOLOGIC RESERVOIRS
2012年
3期
88-92
,共5页
孙佩%崔式涛%刘佳庆%申怡博
孫珮%崔式濤%劉佳慶%申怡博
손패%최식도%류가경%신이박
孔隙结构分类%密闭取心%饱和度校正%低渗透储层
孔隙結構分類%密閉取心%飽和度校正%低滲透儲層
공극결구분류%밀폐취심%포화도교정%저삼투저층
pore structure classification%sealed coring%saturation correction%low permeability
低渗透储层的油、水过渡带往往较大,可动流体通常为油、水两相,在常压密闭取心时,发生降压脱气,油、水两相均有减少,导致密闭取心饱和度求取困难。生产中通过蒸发实验对此进行校正,而未进行蒸发校正的区块往往导致昂贵的密闭取心资料的浪费。通过采用一种不需要进行蒸发实验的低渗透储层密闭取心饱和度校正方法,即根据储层品质指数与密闭取心饱和度的散失量有良好的相关性,利用储层品质指数对储层进行分类,对不同类型的孔隙结构储层的校正系数进行研究,以获取不同的校正系数。经分析化验和生产动态数据验证,该方法对低渗透储层原始含油饱和度求取有较好的效果。因此将未作蒸发实验的密闭取心资料充分利用,获得了准确的原始含油饱和度,为测井解释饱和度提供了对比标准。
低滲透儲層的油、水過渡帶往往較大,可動流體通常為油、水兩相,在常壓密閉取心時,髮生降壓脫氣,油、水兩相均有減少,導緻密閉取心飽和度求取睏難。生產中通過蒸髮實驗對此進行校正,而未進行蒸髮校正的區塊往往導緻昂貴的密閉取心資料的浪費。通過採用一種不需要進行蒸髮實驗的低滲透儲層密閉取心飽和度校正方法,即根據儲層品質指數與密閉取心飽和度的散失量有良好的相關性,利用儲層品質指數對儲層進行分類,對不同類型的孔隙結構儲層的校正繫數進行研究,以穫取不同的校正繫數。經分析化驗和生產動態數據驗證,該方法對低滲透儲層原始含油飽和度求取有較好的效果。因此將未作蒸髮實驗的密閉取心資料充分利用,穫得瞭準確的原始含油飽和度,為測井解釋飽和度提供瞭對比標準。
저삼투저층적유、수과도대왕왕교대,가동류체통상위유、수량상,재상압밀폐취심시,발생강압탈기,유、수량상균유감소,도치밀폐취심포화도구취곤난。생산중통과증발실험대차진행교정,이미진행증발교정적구괴왕왕도치앙귀적밀폐취심자료적낭비。통과채용일충불수요진행증발실험적저삼투저층밀폐취심포화도교정방법,즉근거저층품질지수여밀폐취심포화도적산실량유량호적상관성,이용저층품질지수대저층진행분류,대불동류형적공극결구저층적교정계수진행연구,이획취불동적교정계수。경분석화험화생산동태수거험증,해방법대저삼투저층원시함유포화도구취유교호적효과。인차장미작증발실험적밀폐취심자료충분이용,획득료준학적원시함유포화도,위측정해석포화도제공료대비표준。
Low permeability reservoirs always have a thicker oil-water transitional zone, while mobile fluid usually is in form of tow-phase flow. Therefore, water and oil saturation will decrease undergoing the release of pressure and outgassing as the process of sealed coring, which results in the difficulty in acquiring oil saturation of sealed core. In practice, evaporation experiments were used to correct it, however, data of laboratory of sealed core will be wasted when there is no evaporation experiment. There is a method which can correct the sealed core saturation of low permeability reservoirs with no evaporation experiment. First of all, Classify the reservoir types according to reservoir quality index based on fairly well relationship between reservoir quality index and the fluid loss rate of sealed coring. Then study the correction factor of different types of reservoirs to obtain different correction factors. According to the analysis of laboratory and production data, it is proved that the correction method for obtaining initial saturation of low permeability reservoirs based on pore structure classification is effective. So the valuable sealed coring data with no evaporation experiment can be made use for obtain initial saturation, and provide criterion for logging interpretation.