油气藏评价与开发
油氣藏評價與開髮
유기장평개여개발
2012年
3期
48-52
,共5页
丁院平%朱雪梅%沈晓红%马静%罗辉
丁院平%硃雪梅%瀋曉紅%馬靜%囉輝
정원평%주설매%침효홍%마정%라휘
井筒%破漏段%产出状态%测井%找漏
井筒%破漏段%產齣狀態%測井%找漏
정통%파루단%산출상태%측정%조루
wellbore%damaged and leaked segment%output state%logging%leakage detection
常规套损井找漏方法主要包括封隔器分段封堵试压法和井温剖面找漏法。以上两种方法均根据破漏段吸水的原理找漏,优点是直观,且能准确掌握破漏段吸水状况。但对于部分油井井筒缩径变形、存在多个漏点或吸水启动压力高的漏点(现场生产过程中出现的“只出不进”现象)采用以上两种方法均无法准确找出漏点位置,且采用高压挤水极易造成套管的二次损伤和地层伤害。为此,根据油井测量产液剖面的原理,设计了产出剖面状态下测井找漏工艺和解释方法,并在沙20-31等井进行了应用,均成功找出了具体破漏段位置,为后期措施提供了有力保障。其中沙20-31井措施后增储、增产效果显著。
常規套損井找漏方法主要包括封隔器分段封堵試壓法和井溫剖麵找漏法。以上兩種方法均根據破漏段吸水的原理找漏,優點是直觀,且能準確掌握破漏段吸水狀況。但對于部分油井井筒縮徑變形、存在多箇漏點或吸水啟動壓力高的漏點(現場生產過程中齣現的“隻齣不進”現象)採用以上兩種方法均無法準確找齣漏點位置,且採用高壓擠水極易造成套管的二次損傷和地層傷害。為此,根據油井測量產液剖麵的原理,設計瞭產齣剖麵狀態下測井找漏工藝和解釋方法,併在沙20-31等井進行瞭應用,均成功找齣瞭具體破漏段位置,為後期措施提供瞭有力保障。其中沙20-31井措施後增儲、增產效果顯著。
상규투손정조루방법주요포괄봉격기분단봉도시압법화정온부면조루법。이상량충방법균근거파루단흡수적원리조루,우점시직관,차능준학장악파루단흡수상황。단대우부분유정정통축경변형、존재다개루점혹흡수계동압력고적루점(현장생산과정중출현적“지출불진”현상)채용이상량충방법균무법준학조출루점위치,차채용고압제수겁역조성투관적이차손상화지층상해。위차,근거유정측양산액부면적원리,설계료산출부면상태하측정조루공예화해석방법,병재사20-31등정진행료응용,균성공조출료구체파루단위치,위후기조시제공료유력보장。기중사20-31정조시후증저、증산효과현저。
The leakage detection methods for conventional casing-damaged wells are packer staged blocking pressure test and well temperature profile method for leakage detection. The above two methods both work by the principle of water sucking of damaged and leaked segment, with the advantage of intuitive and accurate grasp of water sucking situation of damaged and leaked segment. However, when it comes to the oil wells with deformed shaft due to hole shrinkage, more than one leakage point or the leakage point with high water sucking threshold pressure (the phenomenon of“only in, no out”in field production), the two methods no longer prove accurate in detecting leakage, adding that high pressure water squeezing shall cause second damage to casing and formation damage. Against the problem, based on the principle of profile detection of liquid output, the leakage detection method by logging in output profile state and interpretation method are designed. Application in well Sha20-31 and other wells has proved a success in detecting the detailed location of damage and leakage, providing forceful guarantee for later operations. What's more, well Sha20-31 witnesses apparent effects in reserve increase and output rise after the operation.